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Conserved domains on  [gi|1907083091|ref|XP_036012875|]
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TATA-binding protein-associated factor 2N isoform X4 [Mus musculus]

Protein Classification

RNA-binding protein( domain architecture ID 10350435)

RNA-binding protein similar to Arabidopsis thaliana serine/arginine-rich SC35-like splicing factor SCL30A involved in intron recognition and spliceosome assembly; contains an RNA recognition motif (RRM)

Graphical summary

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List of domain hits

Name Accession Description Interval E-value
RRM_SF super family cl17169
RNA recognition motif (RRM) superfamily; RRM, also known as RBD (RNA binding domain) or RNP ...
1-48 6.28e-29

RNA recognition motif (RRM) superfamily; RRM, also known as RBD (RNA binding domain) or RNP (ribonucleoprotein domain), is a highly abundant domain in eukaryotes found in proteins involved in post-transcriptional gene expression processes including mRNA and rRNA processing, RNA export, and RNA stability. This domain is 90 amino acids in length and consists of a four-stranded beta-sheet packed against two alpha-helices. RRM usually interacts with ssRNA, but is also known to interact with ssDNA as well as proteins. RRM binds a variable number of nucleotides, ranging from two to eight. The active site includes three aromatic side-chains located within the conserved RNP1 and RNP2 motifs of the domain. The RRM domain is found in a variety heterogeneous nuclear ribonucleoproteins (hnRNPs), proteins implicated in regulation of alternative splicing, and protein components of small nuclear ribonucleoproteins (snRNPs).


The actual alignment was detected with superfamily member cd12535:

Pssm-ID: 473069 [Multi-domain]  Cd Length: 86  Bit Score: 105.76  E-value: 6.28e-29
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*...
gi 1907083091   1 MINLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSF 48
Cdd:cd12535    39 MINLYTDKETGKLKGEATVSFDDPPSAKAAIDWFDGKEFSGNPIKVSF 86
zf-RanBP pfam00641
Zn-finger in Ran binding protein and others;
85-115 5.50e-05

Zn-finger in Ran binding protein and others;


:

Pssm-ID: 395516 [Multi-domain]  Cd Length: 30  Bit Score: 39.64  E-value: 5.50e-05
                          10        20        30
                  ....*....|....*....|....*....|.
gi 1907083091  85 KNGDWVCPnpSCGNMNFARRNSCNQCNEPRP 115
Cdd:pfam00641   1 REGDWDCS--KCLVQNFATSTKCVACQAPKP 29
 
Name Accession Description Interval E-value
RRM_FUS_TAF15 cd12535
RNA recognition motif (RRM) found in vertebrate fused in Ewing's sarcoma protein (FUS), ...
1-48 6.28e-29

RNA recognition motif (RRM) found in vertebrate fused in Ewing's sarcoma protein (FUS), TATA-binding protein-associated factor 15 (TAF15) and similar proteins; This subgroup corresponds to the RRM of FUS and TAF15. FUS (TLS or Pigpen or hnRNP P2), also termed 75 kDa DNA-pairing protein (POMp75), or oncoprotein TLS (Translocated in liposarcoma), is a member of the FET (previously TET) (FUS/TLS, EWS, TAF15) family of RNA- and DNA-binding proteins whose expression is altered in cancer. It is a multi-functional protein and has been implicated in pre-mRNA splicing, chromosome stability, cell spreading, and transcription. FUS was originally identified in human myxoid and round cell liposarcomas as an oncogenic fusion with the stress-induced DNA-binding transcription factor CHOP (CCAAT enhancer-binding homologous protein) and later as hnRNP P2, a component of hnRNP H complex assembled on pre-mRNA. It can form ternary complexes with hnRNP A1 and hnRNP C1/C2. Additional research indicates that FUS binds preferentially to GGUG-containing RNAs. In the presence of Mg2+, it can bind both single- and double-stranded DNA (ssDNA/dsDNA) and promote ATP-independent annealing of complementary ssDNA and D-loop formation in superhelical dsDNA. FUS has been shown to be recruited by single stranded noncoding RNAs to the regulatory regions of target genes such as cyclin D1, where it represses transcription by disrupting complex formation. TAF15 (TAFII68), also termed TATA-binding protein-associated factor 2N (TAF2N), or RNA-binding protein 56 (RBP56), originally identified as a TAF in the general transcription initiation TFIID complex, is a novel RNA/ssDNA-binding protein with homology to the proto-oncoproteins FUS and EWS (also termed EWSR1), belonging to the FET family as well. TAF15 likely functions in RNA polymerase II (RNAP II) transcription by interacting with TFIID and subunits of RNAP II itself. TAF15 is also associated with U1 snRNA, chromatin and RNA, in a complex distinct from the Sm-containing U1 snRNP that functions in splicing. Like other members in the FET family, both FUS and TAF15 contain an N-terminal Ser, Gly, Gln and Tyr-rich region composed of multiple copies of a degenerate hexapeptide repeat motif. The C-terminal region consists of a conserved nuclear import and retention signal (C-NLS), a C2/C2 zinc-finger motif, a conserved RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain), and at least 1 arginine-glycine-glycine (RGG)-repeat region.


Pssm-ID: 409951 [Multi-domain]  Cd Length: 86  Bit Score: 105.76  E-value: 6.28e-29
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*...
gi 1907083091   1 MINLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSF 48
Cdd:cd12535    39 MINLYTDKETGKLKGEATVSFDDPPSAKAAIDWFDGKEFSGNPIKVSF 86
RRM smart00360
RNA recognition motif;
2-46 1.01e-09

RNA recognition motif;


Pssm-ID: 214636 [Multi-domain]  Cd Length: 73  Bit Score: 53.75  E-value: 1.01e-09
                           10        20        30        40
                   ....*....|....*....|....*....|....*....|....*
gi 1907083091    2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKV 46
Cdd:smart00360  29 VRLVRDKETGKSKGFAFVEFESEEDAEKALEALNGKELDGRPLKV 73
RRM COG0724
RNA recognition motif (RRM) domain [Translation, ribosomal structure and biogenesis];
6-54 4.18e-09

RNA recognition motif (RRM) domain [Translation, ribosomal structure and biogenesis];


Pssm-ID: 440488 [Multi-domain]  Cd Length: 85  Bit Score: 52.41  E-value: 4.18e-09
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*....
gi 1907083091   6 TDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFATRRPE 54
Cdd:COG0724    35 TDRETGRSRGFGFVEMPDDEEAQAAIEALNGAELMGRTLKVNEARPREE 83
PLN03134 PLN03134
glycine-rich RNA-binding protein 4; Provisional
7-53 2.55e-06

glycine-rich RNA-binding protein 4; Provisional


Pssm-ID: 178680 [Multi-domain]  Cd Length: 144  Bit Score: 46.18  E-value: 2.55e-06
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*..
gi 1907083091   7 DKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFATRRP 53
Cdd:PLN03134   69 DRETGRSRGFGFVNFNDEGAATAAISEMDGKELNGRHIRVNPANDRP 115
RRM_1 pfam00076
RNA recognition motif. (a.k.a. RRM, RBD, or RNP domain); The RRM motif is probably diagnostic ...
8-45 3.41e-06

RNA recognition motif. (a.k.a. RRM, RBD, or RNP domain); The RRM motif is probably diagnostic of an RNA binding protein. RRMs are found in a variety of RNA binding proteins, including various hnRNP proteins, proteins implicated in regulation of alternative splicing, and protein components of snRNPs. The motif also appears in a few single stranded DNA binding proteins. The RRM structure consists of four strands and two helices arranged in an alpha/beta sandwich, with a third helix present during RNA binding in some cases The C-terminal beta strand (4th strand) and final helix are hard to align and have been omitted in the SEED alignment The LA proteins have an N terminal rrm which is included in the seed. There is a second region towards the C terminus that has some features characteriztic of a rrm but does not appear to have the important structural core of a rrm. The LA proteins are one of the main autoantigens in Systemic lupus erythematosus (SLE), an autoimmune disease.


Pssm-ID: 425453 [Multi-domain]  Cd Length: 70  Bit Score: 43.76  E-value: 3.41e-06
                          10        20        30
                  ....*....|....*....|....*....|....*...
gi 1907083091   8 KDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIK 45
Cdd:pfam00076  33 DETGRSKGFAFVEFEDEEDAEKAIEALNGKELGGRELK 70
zf-RanBP pfam00641
Zn-finger in Ran binding protein and others;
85-115 5.50e-05

Zn-finger in Ran binding protein and others;


Pssm-ID: 395516 [Multi-domain]  Cd Length: 30  Bit Score: 39.64  E-value: 5.50e-05
                          10        20        30
                  ....*....|....*....|....*....|.
gi 1907083091  85 KNGDWVCPnpSCGNMNFARRNSCNQCNEPRP 115
Cdd:pfam00641   1 REGDWDCS--KCLVQNFATSTKCVACQAPKP 29
ZnF_RBZ smart00547
Zinc finger domain; Zinc finger domain in Ran-binding proteins (RanBPs), and other proteins. ...
87-113 4.91e-04

Zinc finger domain; Zinc finger domain in Ran-binding proteins (RanBPs), and other proteins. In RanBPs, this domain binds RanGDP.


Pssm-ID: 197784 [Multi-domain]  Cd Length: 25  Bit Score: 36.53  E-value: 4.91e-04
                           10        20
                   ....*....|....*....|....*..
gi 1907083091   87 GDWVCPnpSCGNMNFARRNSCNQCNEP 113
Cdd:smart00547   1 GDWECP--ACTFLNFASRSKCFACGAP 25
 
Name Accession Description Interval E-value
RRM_FUS_TAF15 cd12535
RNA recognition motif (RRM) found in vertebrate fused in Ewing's sarcoma protein (FUS), ...
1-48 6.28e-29

RNA recognition motif (RRM) found in vertebrate fused in Ewing's sarcoma protein (FUS), TATA-binding protein-associated factor 15 (TAF15) and similar proteins; This subgroup corresponds to the RRM of FUS and TAF15. FUS (TLS or Pigpen or hnRNP P2), also termed 75 kDa DNA-pairing protein (POMp75), or oncoprotein TLS (Translocated in liposarcoma), is a member of the FET (previously TET) (FUS/TLS, EWS, TAF15) family of RNA- and DNA-binding proteins whose expression is altered in cancer. It is a multi-functional protein and has been implicated in pre-mRNA splicing, chromosome stability, cell spreading, and transcription. FUS was originally identified in human myxoid and round cell liposarcomas as an oncogenic fusion with the stress-induced DNA-binding transcription factor CHOP (CCAAT enhancer-binding homologous protein) and later as hnRNP P2, a component of hnRNP H complex assembled on pre-mRNA. It can form ternary complexes with hnRNP A1 and hnRNP C1/C2. Additional research indicates that FUS binds preferentially to GGUG-containing RNAs. In the presence of Mg2+, it can bind both single- and double-stranded DNA (ssDNA/dsDNA) and promote ATP-independent annealing of complementary ssDNA and D-loop formation in superhelical dsDNA. FUS has been shown to be recruited by single stranded noncoding RNAs to the regulatory regions of target genes such as cyclin D1, where it represses transcription by disrupting complex formation. TAF15 (TAFII68), also termed TATA-binding protein-associated factor 2N (TAF2N), or RNA-binding protein 56 (RBP56), originally identified as a TAF in the general transcription initiation TFIID complex, is a novel RNA/ssDNA-binding protein with homology to the proto-oncoproteins FUS and EWS (also termed EWSR1), belonging to the FET family as well. TAF15 likely functions in RNA polymerase II (RNAP II) transcription by interacting with TFIID and subunits of RNAP II itself. TAF15 is also associated with U1 snRNA, chromatin and RNA, in a complex distinct from the Sm-containing U1 snRNP that functions in splicing. Like other members in the FET family, both FUS and TAF15 contain an N-terminal Ser, Gly, Gln and Tyr-rich region composed of multiple copies of a degenerate hexapeptide repeat motif. The C-terminal region consists of a conserved nuclear import and retention signal (C-NLS), a C2/C2 zinc-finger motif, a conserved RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain), and at least 1 arginine-glycine-glycine (RGG)-repeat region.


Pssm-ID: 409951 [Multi-domain]  Cd Length: 86  Bit Score: 105.76  E-value: 6.28e-29
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*...
gi 1907083091   1 MINLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSF 48
Cdd:cd12535    39 MINLYTDKETGKLKGEATVSFDDPPSAKAAIDWFDGKEFSGNPIKVSF 86
RRM_SARFH cd12534
RNA recognition motif (RRM) found in Drosophila melanogaster RNA-binding protein cabeza and ...
2-49 6.26e-24

RNA recognition motif (RRM) found in Drosophila melanogaster RNA-binding protein cabeza and similar proteins; This subgroup corresponds to the RRM in cabeza, also termed P19, or sarcoma-associated RNA-binding fly homolog (SARFH). It is a putative homolog of human RNA-binding proteins FUS (also termed TLS or Pigpen or hnRNP P2), EWS (also termed EWSR1), TAF15 (also termed hTAFII68 or TAF2N or RPB56), and belongs to the of the FET (previously TET) (FUS/TLS, EWS, TAF15) family of RNA- and DNA-binding proteins whose expression is altered in cancer. It is a nuclear RNA binding protein that may play an important role in the regulation of RNA metabolism during fly development. Cabeza contains one RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain).


Pssm-ID: 240978 [Multi-domain]  Cd Length: 83  Bit Score: 92.48  E-value: 6.26e-24
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*...
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFA 49
Cdd:cd12534    36 IWLYKDKDTGEPKGEATVTYDDPHAASAAIEWFNNKDFMGNTIKVSLA 83
RRM_EWS cd12533
RNA recognition motif (RRM) found in vertebrate Ewing Sarcoma Protein (EWS); This subgroup ...
1-47 3.28e-23

RNA recognition motif (RRM) found in vertebrate Ewing Sarcoma Protein (EWS); This subgroup corresponds to the RRM of EWS, also termed Ewing sarcoma breakpoint region 1 protein, a member of the FET (previously TET) (FUS/TLS, EWS, TAF15) family of RNA- and DNA-binding proteins whose expression is altered in cancer. It is a multifunctional protein and may play roles in transcription and RNA processing. EWS is involved in transcriptional regulation by interacting with the preinitiation complex TFIID and the RNA polymerase II (RNAPII) complexes. It is also associated with splicing factors, such as the U1 snRNP protein U1C, suggesting its implication in pre-mRNA splicing. Additionally, EWS has been shown to regulate DNA damage-induced alternative splicing (AS). Like other members in the FET family, EWS contains an N-terminal Ser, Gly, Gln and Tyr-rich region composed of multiple copies of a degenerate hexapeptide repeat motif. The C-terminal region consists of a conserved nuclear import and retention signal (C-NLS), a C2/C2 zinc-finger motif, a conserved RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain), and at least 1 arginine-glycine-glycine (RGG)-repeat region. EWS specifically binds to poly G and poly U RNA. It also binds to the proximal-element DNA of the macrophage-specific promoter of the CSF-1 receptor gene.


Pssm-ID: 409950 [Multi-domain]  Cd Length: 84  Bit Score: 90.67  E-value: 3.28e-23
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*..
gi 1907083091   1 MINLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVS 47
Cdd:cd12533    37 MINIYTDKETGKPKGDATVSYEDPPAAKAAVEWFDGKDFQGNKLKVS 83
RRM_FET cd12280
RNA recognition motif (RRM) found in the FET family of RNA-binding proteins; This subfamily ...
1-48 7.65e-23

RNA recognition motif (RRM) found in the FET family of RNA-binding proteins; This subfamily corresponds to the RRM of FET (previously TET) (FUS/TLS, EWS, TAF15) family of RNA-binding proteins. This ubiquitously expressed family of similarly structured proteins predominantly localizing to the nuclear, includes FUS (also known as TLS or Pigpen or hnRNP P2), EWS (also known as EWSR1), TAF15 (also known as hTAFII68 or TAF2N or RPB56), and Drosophila Cabeza (also known as SARFH). The corresponding coding genes of these proteins are involved in deleterious genomic rearrangements with transcription factor genes in a variety of human sarcomas and acute leukemias. All FET proteins interact with each other and are therefore likely to be part of the very same protein complexes, which suggests a general bridging role for FET proteins coupling RNA transcription, processing, transport, and DNA repair. The FET proteins contain multiple copies of a degenerate hexapeptide repeat motif at the N-terminus. The C-terminal region consists of a conserved nuclear import and retention signal (C-NLS), a putative zinc-finger domain, and a conserved RNA recognition motif (RRM), also known as RBD (RNA binding domain) or RNP (ribonucleoprotein domain), which is flanked by 3 arginine-glycine-glycine (RGG) boxes. FUS and EWS might have similar sequence specificity; both bind preferentially to GGUG-containing RNAs. FUS has also been shown to bind strongly to human telomeric RNA and to small low-copy-number RNAs tethered to the promoter of cyclin D1. To date, nothing is known about the RNA binding specificity of TAF15.


Pssm-ID: 409722 [Multi-domain]  Cd Length: 82  Bit Score: 89.78  E-value: 7.65e-23
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*...
gi 1907083091   1 MINLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSF 48
Cdd:cd12280    35 KIKIYTDKETGKPKGEATLTYEDPSAAKAAIEWFNGKEFRGNKIKVSL 82
RRM smart00360
RNA recognition motif;
2-46 1.01e-09

RNA recognition motif;


Pssm-ID: 214636 [Multi-domain]  Cd Length: 73  Bit Score: 53.75  E-value: 1.01e-09
                           10        20        30        40
                   ....*....|....*....|....*....|....*....|....*
gi 1907083091    2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKV 46
Cdd:smart00360  29 VRLVRDKETGKSKGFAFVEFESEEDAEKALEALNGKELDGRPLKV 73
RRM COG0724
RNA recognition motif (RRM) domain [Translation, ribosomal structure and biogenesis];
6-54 4.18e-09

RNA recognition motif (RRM) domain [Translation, ribosomal structure and biogenesis];


Pssm-ID: 440488 [Multi-domain]  Cd Length: 85  Bit Score: 52.41  E-value: 4.18e-09
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*....
gi 1907083091   6 TDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFATRRPE 54
Cdd:COG0724    35 TDRETGRSRGFGFVEMPDDEEAQAAIEALNGAELMGRTLKVNEARPREE 83
RRM_SF cd00590
RNA recognition motif (RRM) superfamily; RRM, also known as RBD (RNA binding domain) or RNP ...
2-47 1.00e-07

RNA recognition motif (RRM) superfamily; RRM, also known as RBD (RNA binding domain) or RNP (ribonucleoprotein domain), is a highly abundant domain in eukaryotes found in proteins involved in post-transcriptional gene expression processes including mRNA and rRNA processing, RNA export, and RNA stability. This domain is 90 amino acids in length and consists of a four-stranded beta-sheet packed against two alpha-helices. RRM usually interacts with ssRNA, but is also known to interact with ssDNA as well as proteins. RRM binds a variable number of nucleotides, ranging from two to eight. The active site includes three aromatic side-chains located within the conserved RNP1 and RNP2 motifs of the domain. The RRM domain is found in a variety heterogeneous nuclear ribonucleoproteins (hnRNPs), proteins implicated in regulation of alternative splicing, and protein components of small nuclear ribonucleoproteins (snRNPs).


Pssm-ID: 409669 [Multi-domain]  Cd Length: 72  Bit Score: 48.43  E-value: 1.00e-07
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*.
gi 1907083091   2 INLYTDKDtGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVS 47
Cdd:cd00590    28 VRIVRDRD-GKSKGFAFVEFESPEDAEKALEALNGTELGGRPLKVS 72
RRM_CSTF2_RNA15_like cd12398
RNA recognition motif (RRM) found in cleavage stimulation factor subunit 2 (CSTF2), yeast ...
4-49 1.27e-07

RNA recognition motif (RRM) found in cleavage stimulation factor subunit 2 (CSTF2), yeast ortholog mRNA 3'-end-processing protein RNA15 and similar proteins; This subfamily corresponds to the RRM domain of CSTF2, its tau variant and eukaryotic homologs. CSTF2, also termed cleavage stimulation factor 64 kDa subunit (CstF64), is the vertebrate conterpart of yeast mRNA 3'-end-processing protein RNA15. It is expressed in all somatic tissues and is one of three cleavage stimulatory factor (CstF) subunits required for polyadenylation. CstF64 contains an N-terminal RNA recognition motif (RRM), also known as RBD (RNA binding domain) or RNP (ribonucleoprotein domain), a CstF77-binding domain, a repeated MEARA helical region and a conserved C-terminal domain reported to bind the transcription factor PC-4. During polyadenylation, CstF interacts with the pre-mRNA through the RRM of CstF64 at U- or GU-rich sequences within 10 to 30 nucleotides downstream of the cleavage site. CSTF2T, also termed tauCstF64, is a paralog of the X-linked cleavage stimulation factor CstF64 protein that supports polyadenylation in most somatic cells. It is expressed during meiosis and subsequent haploid differentiation in a more limited set of tissues and cell types, largely in meiotic and postmeiotic male germ cells, and to a lesser extent in brain. The loss of CSTF2T will cause male infertility, as it is necessary for spermatogenesis and fertilization. Moreover, CSTF2T is required for expression of genes involved in morphological differentiation of spermatids, as well as for genes having products that function during interaction of motile spermatozoa with eggs. It promotes germ cell-specific patterns of polyadenylation by using its RRM to bind to different sequence elements downstream of polyadenylation sites than does CstF64. The family also includes yeast ortholog mRNA 3'-end-processing protein RNA15 and similar proteins. RNA15 is a core subunit of cleavage factor IA (CFIA), an essential transcriptional 3'-end processing factor from Saccharomyces cerevisiae. RNA recognition by CFIA is mediated by an N-terminal RRM, which is contained in the RNA15 subunit of the complex. The RRM of RNA15 has a strong preference for GU-rich RNAs, mediated by a binding pocket that is entirely conserved in both yeast and vertebrate RNA15 orthologs.


Pssm-ID: 409832 [Multi-domain]  Cd Length: 77  Bit Score: 48.28  E-value: 1.27e-07
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*.
gi 1907083091   4 LYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFA 49
Cdd:cd12398    32 LVTDRETGKPKGYGFCEFRDAETALSAVRNLNGYELNGRPLRVDFA 77
RRM_RBMX_like cd12382
RNA recognition motif (RRM) found in heterogeneous nuclear ribonucleoprotein G (hnRNP G), Y ...
4-51 1.06e-06

RNA recognition motif (RRM) found in heterogeneous nuclear ribonucleoprotein G (hnRNP G), Y chromosome RNA recognition motif 1 (hRBMY), testis-specific heterogeneous nuclear ribonucleoprotein G-T (hnRNP G-T) and similar proteins; This subfamily corresponds to the RRM domain of hnRNP G, also termed glycoprotein p43 or RBMX, an RNA-binding motif protein located on the X chromosome. It is expressed ubiquitously and has been implicated in the splicing control of several pre-mRNAs. Moreover, hnRNP G may function as a regulator of transcription for SREBP-1c and GnRH1. Research has shown that hnRNP G may also act as a tumor-suppressor since it upregulates the Txnip gene and promotes the fidelity of DNA end-joining activity. In addition, hnRNP G appears to play a critical role in proper neural development of zebrafish and frog embryos. The family also includes several paralogs of hnRNP G, such as hRBMY and hnRNP G-T (also termed RNA-binding motif protein, X-linked-like-2). Both, hRBMY and hnRNP G-T, are exclusively expressed in testis and critical for male fertility. Like hnRNP G, hRBMY and hnRNP G-T interact with factors implicated in the regulation of pre-mRNA splicing, such as hTra2-beta1 and T-STAR. Although members in this family share a high conserved N-terminal RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain), they appear to recognize different RNA targets. For instance, hRBMY interacts specifically with a stem-loop structure in which the loop is formed by the sequence CA/UCAA. In contrast, hnRNP G associates with single stranded RNA sequences containing a CCA/C motif. In addition to the RRM, hnRNP G contains a nascent transcripts targeting domain (NTD) in the middle region and a novel auxiliary RNA-binding domain (RBD) in its C-terminal region. The C-terminal RBD exhibits distinct RNA binding specificity, and would play a critical role in the regulation of alternative splicing by hnRNP G.


Pssm-ID: 409816 [Multi-domain]  Cd Length: 80  Bit Score: 45.86  E-value: 1.06e-06
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*...
gi 1907083091   4 LYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFATR 51
Cdd:cd12382    33 LMKDRETNKSRGFAFVTFESPADAKDAARDMNGKELDGKAIKVEQATK 80
RRM_CFIm68_CFIm59 cd12372
RNA recognition motif (RRM) found in pre-mRNA cleavage factor Im 68 kDa subunit (CFIm68 or ...
2-41 1.74e-06

RNA recognition motif (RRM) found in pre-mRNA cleavage factor Im 68 kDa subunit (CFIm68 or CPSF6), pre-mRNA cleavage factor Im 59 kDa subunit (CFIm59 or CPSF7), and similar proteins; This subfamily corresponds to the RRM of cleavage factor Im (CFIm) subunits. Cleavage factor Im (CFIm) is a highly conserved component of the eukaryotic mRNA 3' processing machinery that functions in UGUA-mediated poly(A) site recognition, the regulation of alternative poly(A) site selection, mRNA export, and mRNA splicing. It is a complex composed of a small 25 kDa (CFIm25) subunit and a larger 59/68/72 kDa subunit. Two separate genes, CPSF6 and CPSF7, code for two isoforms of the large subunit, CFIm68 and CFIm59. Structurally related CFIm68 and CFIm59, also termed cleavage and polyadenylation specificity factor subunit 6 (CPSF7), or cleavage and polyadenylation specificity factor 59 kDa subunit (CPSF59), are functionally redundant. Both contains an N-terminal RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain), a central proline-rich region, and a C-terminal RS-like domain. Their N-terminal RRM mediates the interaction with CFIm25, and also serves to enhance RNA binding and facilitate RNA looping.


Pssm-ID: 409807 [Multi-domain]  Cd Length: 76  Bit Score: 45.00  E-value: 1.74e-06
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHG 41
Cdd:cd12372    30 IKFFEHKANGKSKGYAYVEFASPAAAAAVKEKLEKREFNG 69
RRM_HP0827_like cd12399
RNA recognition motif (RRM) found in Helicobacter pylori HP0827 protein and similar proteins; ...
7-49 2.44e-06

RNA recognition motif (RRM) found in Helicobacter pylori HP0827 protein and similar proteins; This subfamily corresponds to the RRM of H. pylori HP0827, a putative ssDNA-binding protein 12rnp2 precursor, containing one RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain). The ssDNA binding may be important in activation of HP0827.


Pssm-ID: 409833 [Multi-domain]  Cd Length: 75  Bit Score: 44.43  E-value: 2.44e-06
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|...
gi 1907083091   7 DKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFA 49
Cdd:cd12399    33 DRETKRPRGFGFVELQEEESAEKAIAKLDGTDFMGRTIRVNEA 75
PLN03134 PLN03134
glycine-rich RNA-binding protein 4; Provisional
7-53 2.55e-06

glycine-rich RNA-binding protein 4; Provisional


Pssm-ID: 178680 [Multi-domain]  Cd Length: 144  Bit Score: 46.18  E-value: 2.55e-06
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*..
gi 1907083091   7 DKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFATRRP 53
Cdd:PLN03134   69 DRETGRSRGFGFVNFNDEGAATAAISEMDGKELNGRHIRVNPANDRP 115
RRM_PPIE cd12347
RNA recognition motif (RRM) found in cyclophilin-33 (Cyp33) and similar proteins; This ...
2-49 2.71e-06

RNA recognition motif (RRM) found in cyclophilin-33 (Cyp33) and similar proteins; This subfamily corresponds to the RRM of Cyp33, also termed peptidyl-prolyl cis-trans isomerase E (PPIase E), or cyclophilin E, or rotamase E. Cyp33 is a nuclear RNA-binding cyclophilin with an N-terminal RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain), and a C-terminal PPIase domain. Cyp33 possesses RNA-binding activity and preferentially binds to polyribonucleotide polyA and polyU, but hardly to polyG and polyC. It binds specifically to mRNA, which can stimulate its PPIase activity. Moreover, Cyp33 interacts with the third plant homeodomain (PHD3) zinc finger cassette of the mixed lineage leukemia (MLL) proto-oncoprotein and a poly-A RNA sequence through its RRM domain. It further mediates downregulation of the expression of MLL target genes HOXC8, HOXA9, CDKN1B, and C-MYC, in a proline isomerase-dependent manner. Cyp33 also possesses a PPIase activity that catalyzes cis-trans isomerization of the peptide bond preceding a proline, which has been implicated in the stimulation of folding and conformational changes in folded and unfolded proteins. The PPIase activity can be inhibited by the immunosuppressive drug cyclosporin A.


Pssm-ID: 409783 [Multi-domain]  Cd Length: 75  Bit Score: 44.52  E-value: 2.71e-06
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*...
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFA 49
Cdd:cd12347    28 IQIPLDYETEKHRGFAFVEFEEAEDAAAAIDNMNESELFGRTIRVNLA 75
RRM_1 pfam00076
RNA recognition motif. (a.k.a. RRM, RBD, or RNP domain); The RRM motif is probably diagnostic ...
8-45 3.41e-06

RNA recognition motif. (a.k.a. RRM, RBD, or RNP domain); The RRM motif is probably diagnostic of an RNA binding protein. RRMs are found in a variety of RNA binding proteins, including various hnRNP proteins, proteins implicated in regulation of alternative splicing, and protein components of snRNPs. The motif also appears in a few single stranded DNA binding proteins. The RRM structure consists of four strands and two helices arranged in an alpha/beta sandwich, with a third helix present during RNA binding in some cases The C-terminal beta strand (4th strand) and final helix are hard to align and have been omitted in the SEED alignment The LA proteins have an N terminal rrm which is included in the seed. There is a second region towards the C terminus that has some features characteriztic of a rrm but does not appear to have the important structural core of a rrm. The LA proteins are one of the main autoantigens in Systemic lupus erythematosus (SLE), an autoimmune disease.


Pssm-ID: 425453 [Multi-domain]  Cd Length: 70  Bit Score: 43.76  E-value: 3.41e-06
                          10        20        30
                  ....*....|....*....|....*....|....*...
gi 1907083091   8 KDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIK 45
Cdd:pfam00076  33 DETGRSKGFAFVEFEDEEDAEKAIEALNGKELGGRELK 70
RRM_ist3_like cd12411
RNA recognition motif (RRM) found in ist3 family; This subfamily corresponds to the RRM of the ...
2-46 4.35e-06

RNA recognition motif (RRM) found in ist3 family; This subfamily corresponds to the RRM of the ist3 family that includes fungal U2 small nuclear ribonucleoprotein (snRNP) component increased sodium tolerance protein 3 (ist3), X-linked 2 RNA-binding motif proteins (RBMX2) found in Metazoa and plants, and similar proteins. Gene IST3 encoding ist3, also termed U2 snRNP protein SNU17 (Snu17p), is a novel yeast Saccharomyces cerevisiae protein required for the first catalytic step of splicing and for progression of spliceosome assembly. It binds specifically to the U2 snRNP and is an intrinsic component of prespliceosomes and spliceosomes. Yeast ist3 contains an atypical RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain). In the yeast pre-mRNA retention and splicing complex, the atypical RRM of ist3 functions as a scaffold that organizes the other two constituents, Bud13p (bud site selection 13) and Pml1p (pre-mRNA leakage 1). Fission yeast Schizosaccharomyces pombe gene cwf29 encoding ist3, also termed cell cycle control protein cwf29, is an RNA-binding protein complexed with cdc5 protein 29. It also contains one RRM. The biological function of RBMX2 remains unclear. It shows high sequence similarity to yeast ist3 protein and harbors one RRM as well.


Pssm-ID: 409845 [Multi-domain]  Cd Length: 89  Bit Score: 44.12  E-value: 4.35e-06
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKV 46
Cdd:cd12411    39 INLVRDKKTGKSKGFAFLAYEDQRSTILAVDNLNGIKLLGRTIRV 83
RRM3_CELF1-6 cd12362
RNA recognition motif 3 (RRM3) found in CELF/Bruno-like family of RNA binding proteins CELF1, ...
5-47 4.87e-06

RNA recognition motif 3 (RRM3) found in CELF/Bruno-like family of RNA binding proteins CELF1, CELF2, CELF3, CELF4, CELF5, CELF6 and similar proteins; This subgroup corresponds to the RRM3 of the CUGBP1 and ETR-3-like factors (CELF) or BRUNOL (Bruno-like) proteins, a family of structurally related RNA-binding proteins involved in the regulation of pre-mRNA splicing in the nucleus and in the control of mRNA translation and deadenylation in the cytoplasm. The family contains six members: CELF-1 (also termed BRUNOL-2, or CUG-BP1, or NAPOR, or EDEN-BP), CELF-2 (also termed BRUNOL-3, or ETR-3, or CUG-BP2, or NAPOR-2), CELF-3 (also termed BRUNOL-1, or TNRC4, or ETR-1, or CAGH4, or ER DA4), CELF-4 (also termed BRUNOL-4), CELF-5 (also termed BRUNOL-5), CELF-6 (also termed BRUNOL-6). They all contain three highly conserved RNA recognition motifs (RRMs), also known as RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains): two consecutive RRMs (RRM1 and RRM2) situated in the N-terminal region followed by a linker region and the third RRM (RRM3) close to the C-terminus of the protein. The low sequence conservation of the linker region is highly suggestive of a large variety in the co-factors that associate with the various CELF family members. Based on both sequence similarity and function, the CELF family can be divided into two subfamilies, the first containing CELFs 1 and 2, and the second containing CELFs 3, 4, 5, and 6. The different CELF proteins may act through different sites on at least some substrates. Furthermore, CELF proteins may interact with each other in varying combinations to influence alternative splicing in different contexts.


Pssm-ID: 409797 [Multi-domain]  Cd Length: 73  Bit Score: 43.76  E-value: 4.87e-06
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|...
gi 1907083091   5 YTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVS 47
Cdd:cd12362    31 FVDKNTGRSKGFGFVSYDNPLSAQAAIKAMNGFQVGGKRLKVQ 73
RRM2_gar2 cd12448
RNA recognition motif 2 (RRM2) found in yeast protein gar2 and similar proteins; This ...
2-47 6.21e-06

RNA recognition motif 2 (RRM2) found in yeast protein gar2 and similar proteins; This subfamily corresponds to the RRM2 of yeast protein gar2, a novel nucleolar protein required for 18S rRNA and 40S ribosomal subunit accumulation. It shares similar domain architecture with nucleolin from vertebrates and NSR1 from Saccharomyces cerevisiae. The highly phosphorylated N-terminal domain of gar2 is made up of highly acidic regions separated from each other by basic sequences, and contains multiple phosphorylation sites. The central domain of gar2 contains two closely adjacent N-terminal RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains). The C-terminal RGG (or GAR) domain of gar2 is rich in glycine, arginine and phenylalanine residues.


Pssm-ID: 409882 [Multi-domain]  Cd Length: 73  Bit Score: 43.17  E-value: 6.21e-06
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*.
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVS 47
Cdd:cd12448    28 VRLPTDRETGQPKGFGYVDFSTIDSAEAAIDALGGEYIDGRPIRLD 73
RRM_eIF3G_like cd12408
RNA recognition motif (RRM) found in eukaryotic translation initiation factor 3 subunit G ...
2-49 1.16e-05

RNA recognition motif (RRM) found in eukaryotic translation initiation factor 3 subunit G (eIF-3G) and similar proteins; This subfamily corresponds to the RRM of eIF-3G and similar proteins. eIF-3G, also termed eIF-3 subunit 4, or eIF-3-delta, or eIF3-p42, or eIF3-p44, is the RNA-binding subunit of eIF3, a large multisubunit complex that plays a central role in the initiation of translation by binding to the 40 S ribosomal subunit and promoting the binding of methionyl-tRNAi and mRNA. eIF-3G binds 18 S rRNA and beta-globin mRNA, and therefore appears to be a nonspecific RNA-binding protein. eIF-3G is one of the cytosolic targets and interacts with mature apoptosis-inducing factor (AIF). eIF-3G contains one RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain). This family also includes yeast eIF3-p33, a homolog of vertebrate eIF-3G, plays an important role in the initiation phase of protein synthesis in yeast. It binds both, mRNA and rRNA, fragments due to an RRM near its C-terminus.


Pssm-ID: 409842 [Multi-domain]  Cd Length: 76  Bit Score: 42.50  E-value: 1.16e-05
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*...
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFA 49
Cdd:cd12408    29 VYLAKDKETGQSKGFAFVTFETREDAERAIEKLNGFGYDNLILSVEWA 76
RRM2_NsCP33_like cd21608
RNA recognition motif 2 (RRM2) found in Nicotiana sylvestris chloroplastic 33 kDa ...
3-49 1.90e-05

RNA recognition motif 2 (RRM2) found in Nicotiana sylvestris chloroplastic 33 kDa ribonucleoprotein (NsCP33) and similar proteins; The family includes NsCP33, Arabidopsis thaliana chloroplastic 31 kDa ribonucleoprotein (CP31A) and mitochondrial glycine-rich RNA-binding protein 2 (AtGR-RBP2). NsCP33 may be involved in splicing and/or processing of chloroplast RNA's. AtCP31A, also called RNA-binding protein 1/2/3 (AtRBP33), or RNA-binding protein CP31A, or RNA-binding protein RNP-T, or RNA-binding protein cp31, is required for specific RNA editing events in chloroplasts and stabilizes specific chloroplast mRNAs, as well as for normal chloroplast development under cold stress conditions by stabilizing transcripts of numerous mRNAs under these conditions. CP31A may modulate telomere replication through RNA binding domains. AtGR-RBP2, also called AtRBG2, or glycine-rich protein 2 (AtGRP2), or mitochondrial RNA-binding protein 1a (At-mRBP1a), plays a role in RNA transcription or processing during stress. It binds RNAs and DNAs sequence with a preference to single-stranded nucleic acids. AtGR-RBP2 displays strong affinity to poly(U) sequence. It exerts cold and freezing tolerance, probably by exhibiting an RNA chaperone activity during the cold and freezing adaptation process. Some members in this family contain two RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains). The model corresponds to the second RRM motif.


Pssm-ID: 410187 [Multi-domain]  Cd Length: 76  Bit Score: 42.16  E-value: 1.90e-05
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*..
gi 1907083091   3 NLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFA 49
Cdd:cd21608    30 KVITDRETGRSRGFGFVTFSTAEAAEAAIDALNGKELDGRSIVVNEA 76
RRM1_Nop4p cd12674
RNA recognition motif 1 (RRM1) found in yeast nucleolar protein 4 (Nop4p) and similar proteins; ...
6-52 1.91e-05

RNA recognition motif 1 (RRM1) found in yeast nucleolar protein 4 (Nop4p) and similar proteins; This subgroup corresponds to the RRM1 of Nop4p (also known as Nop77p), encoded by YPL043W from Saccharomyces cerevisiae. It is an essential nucleolar protein involved in processing and maturation of 27S pre-rRNA and biogenesis of 60S ribosomal subunits. Nop4p has four RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains).


Pssm-ID: 410075 [Multi-domain]  Cd Length: 80  Bit Score: 42.07  E-value: 1.91e-05
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*..
gi 1907083091   6 TDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFATRR 52
Cdd:cd12674    34 TDPETKKSRGYGFVSFSTHDDAEEALAKLKNRKLSGHILKLDFAKPR 80
RRM1_RBM28_like cd12413
RNA recognition motif 1 (RRM1) found in RNA-binding protein 28 (RBM28) and similar proteins; ...
6-52 1.97e-05

RNA recognition motif 1 (RRM1) found in RNA-binding protein 28 (RBM28) and similar proteins; This subfamily corresponds to the RRM1 of RBM28 and Nop4p. RBM28 is a specific nucleolar component of the spliceosomal small nuclear ribonucleoproteins (snRNPs), possibly coordinating their transition through the nucleolus. It specifically associates with U1, U2, U4, U5, and U6 small nuclear RNAs (snRNAs), and may play a role in the maturation of both small nuclear and ribosomal RNAs. RBM28 has four RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), and an extremely acidic region between RRM2 and RRM3. The family also includes nucleolar protein 4 (Nop4p or Nop77p) encoded by YPL043W from Saccharomyces cerevisiae. It is an essential nucleolar protein involved in processing and maturation of 27S pre-rRNA and biogenesis of 60S ribosomal subunits. Nop4p also contains four RRMs.


Pssm-ID: 409847 [Multi-domain]  Cd Length: 79  Bit Score: 42.19  E-value: 1.97e-05
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*..
gi 1907083091   6 TDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFATRR 52
Cdd:cd12413    33 KDKGKDKCRGFGYVTFALAEDAQRALEEVKGKKFGGRKIKVELAKKK 79
RRM_RBM8 cd12324
RNA recognition motif (RRM) found in RNA-binding protein RBM8A, RBM8B nd similar proteins; ...
2-53 2.45e-05

RNA recognition motif (RRM) found in RNA-binding protein RBM8A, RBM8B nd similar proteins; This subfamily corresponds to the RRM of RBM8, also termed binder of OVCA1-1 (BOV-1), or RNA-binding protein Y14, which is one of the components of the exon-exon junction complex (EJC). It has two isoforms, RBM8A and RBM8B, both of which are identical except that RBM8B is 16 amino acids shorter at its N-terminus. RBM8, together with other EJC components (such as Magoh, Aly/REF, RNPS1, Srm160, and Upf3), plays critical roles in postsplicing processing, including nuclear export and cytoplasmic localization of the mRNA, and the nonsense-mediated mRNA decay (NMD) surveillance process. RBM8 binds to mRNA 20-24 nucleotides upstream of a spliced exon-exon junction. It is also involved in spliced mRNA nuclear export, and the process of nonsense-mediated decay of mRNAs with premature stop codons. RBM8 forms a specific heterodimer complex with the EJC protein Magoh which then associates with Aly/REF, RNPS1, DEK, and SRm160 on the spliced mRNA, and inhibits ATP turnover by eIF4AIII, thereby trapping the EJC core onto RNA. RBM8 contains an N-terminal putative bipartite nuclear localization signal, one RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain), in the central region, and a C-terminal serine-arginine rich region (SR domain) and glycine-arginine rich region (RG domain).


Pssm-ID: 409762 [Multi-domain]  Cd Length: 88  Bit Score: 41.83  E-value: 2.45e-05
                          10        20        30        40        50
                  ....*....|....*....|....*....|....*....|....*....|..
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFATRRP 53
Cdd:cd12324    36 LHLNLDRRTGFVKGYALVEYETKKEAQAAIEGLNGKELLGQTISVDWAFVKG 87
RRM_II_PABPs cd12306
RNA recognition motif in type II polyadenylate-binding proteins; This subfamily corresponds to ...
2-47 2.54e-05

RNA recognition motif in type II polyadenylate-binding proteins; This subfamily corresponds to the RRM of type II polyadenylate-binding proteins (PABPs), including polyadenylate-binding protein 2 (PABP-2 or PABPN1), embryonic polyadenylate-binding protein 2 (ePABP-2 or PABPN1L) and similar proteins. PABPs are highly conserved proteins that bind to the poly(A) tail present at the 3' ends of most eukaryotic mRNAs. They have been implicated in the regulation of poly(A) tail length during the polyadenylation reaction, translation initiation, mRNA stabilization by influencing the rate of deadenylation and inhibition of mRNA decapping. ePABP-2 is predominantly located in the cytoplasm and PABP-2 is located in the nucleus. In contrast to the type I PABPs containing four copies of RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), the type II PABPs contains a single highly-conserved RRM. This subfamily also includes Saccharomyces cerevisiae RBP29 (SGN1, YIR001C) gene encoding cytoplasmic mRNA-binding protein Rbp29 that binds preferentially to poly(A). Although not essential for cell viability, Rbp29 plays a role in modulating the expression of cytoplasmic mRNA. Like other type II PABPs, Rbp29 contains one RRM only.


Pssm-ID: 409747 [Multi-domain]  Cd Length: 73  Bit Score: 41.52  E-value: 2.54e-05
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*.
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDwFDGKEFHGNIIKVS 47
Cdd:cd12306    29 VTILCDKFTGQPKGFAYIEFVDKSSVENALL-LNESEFRGRQIKVT 73
RRM1_gar2 cd12447
RNA recognition motif 1 (RRM1) found in yeast protein gar2 and similar proteins; This ...
6-49 2.80e-05

RNA recognition motif 1 (RRM1) found in yeast protein gar2 and similar proteins; This subfamily corresponds to the RRM1 of yeast protein gar2, a novel nucleolar protein required for 18S rRNA and 40S ribosomal subunit accumulation. It shares similar domain architecture with nucleolin from vertebrates and NSR1 from Saccharomyces cerevisiae. The highly phosphorylated N-terminal domain of gar2 is made up of highly acidic regions separated from each other by basic sequences, and contains multiple phosphorylation sites. The central domain of gar2 contains two closely adjacent N-terminal RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains). The C-terminal RGG (or GAR) domain of gar2 is rich in glycine, arginine and phenylalanine residues.


Pssm-ID: 409881 [Multi-domain]  Cd Length: 76  Bit Score: 41.65  E-value: 2.80e-05
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....
gi 1907083091   6 TDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFA 49
Cdd:cd12447    33 TDRGSGRSKGYGYVDFATPEAAQKALAAMSGKEIDGRQINVDFS 76
RRM_eIF4H cd12401
RNA recognition motif (RRM) found in eukaryotic translation initiation factor 4H (eIF-4H) and ...
2-52 3.06e-05

RNA recognition motif (RRM) found in eukaryotic translation initiation factor 4H (eIF-4H) and similar proteins; This subfamily corresponds to the RRM of eIF-4H, also termed Williams-Beuren syndrome chromosomal region 1 protein, which, together with elf-4B/eIF-4G, serves as the accessory protein of RNA helicase eIF-4A. eIF-4H contains a well conserved RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain). It stimulates protein synthesis by enhancing the helicase activity of eIF-4A in the initiation step of mRNA translation.


Pssm-ID: 409835 [Multi-domain]  Cd Length: 84  Bit Score: 41.50  E-value: 3.06e-05
                          10        20        30        40        50
                  ....*....|....*....|....*....|....*....|....*....|.
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDwFDGKEFHGNIIKVSFATRR 52
Cdd:cd12401    34 VRLVRDRETDKFKGFCYVEFEDLESLKEALE-YDGALFEDRPLRVDIAEGR 83
RRM2_RBM23_RBM39 cd12284
RNA recognition motif 2 (RRM2) found in vertebrate RNA-binding protein RBM23, RBM39 and ...
2-52 3.56e-05

RNA recognition motif 2 (RRM2) found in vertebrate RNA-binding protein RBM23, RBM39 and similar proteins; This subfamily corresponds to the RRM2 of RBM39 (also termed HCC1), a nuclear autoantigen that contains an N-terminal arginine/serine rich (RS) motif and three RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains). An octapeptide sequence called the RS-ERK motif is repeated six times in the RS region of RBM39. Although the cellular function of RBM23 remains unclear, it shows high sequence homology to RBM39 and contains two RRMs. It may possibly function as a pre-mRNA splicing factor.


Pssm-ID: 409726 [Multi-domain]  Cd Length: 78  Bit Score: 41.46  E-value: 3.56e-05
                          10        20        30        40        50
                  ....*....|....*....|....*....|....*....|....*....|.
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFATRR 52
Cdd:cd12284    28 VQLQKDPETGRSKGYGFIQFRDAEDAKKALEQLNGFELAGRPMKVGHVTER 78
RRM3_RBM19_RRM2_MRD1 cd12316
RNA recognition motif 3 (RRM3) found in RNA-binding protein 19 (RBM19) and RNA recognition ...
7-46 5.24e-05

RNA recognition motif 3 (RRM3) found in RNA-binding protein 19 (RBM19) and RNA recognition motif 2 found in multiple RNA-binding domain-containing protein 1 (MRD1); This subfamily corresponds to the RRM3 of RBM19 and RRM2 of MRD1. RBM19, also termed RNA-binding domain-1 (RBD-1), is a nucleolar protein conserved in eukaryotes involved in ribosome biogenesis by processing rRNA and is essential for preimplantation development. It has a unique domain organization containing 6 conserved RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains). MRD1 is encoded by a novel yeast gene MRD1 (multiple RNA-binding domain). It is well conserved in yeast and its homologs exist in all eukaryotes. MRD1 is present in the nucleolus and the nucleoplasm. It interacts with the 35 S precursor rRNA (pre-rRNA) and U3 small nucleolar RNAs (snoRNAs). It is essential for the initial processing at the A0-A2 cleavage sites in the 35 S pre-rRNA. MRD1 contains 5 conserved RRMs, which may play an important structural role in organizing specific rRNA processing events.


Pssm-ID: 409755 [Multi-domain]  Cd Length: 74  Bit Score: 40.79  E-value: 5.24e-05
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|
gi 1907083091   7 DKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKV 46
Cdd:cd12316    34 DKQTKRSKGFAFVLFVIPEDAVKAYQELDGSIFQGRLLHV 73
zf-RanBP pfam00641
Zn-finger in Ran binding protein and others;
85-115 5.50e-05

Zn-finger in Ran binding protein and others;


Pssm-ID: 395516 [Multi-domain]  Cd Length: 30  Bit Score: 39.64  E-value: 5.50e-05
                          10        20        30
                  ....*....|....*....|....*....|.
gi 1907083091  85 KNGDWVCPnpSCGNMNFARRNSCNQCNEPRP 115
Cdd:pfam00641   1 REGDWDCS--KCLVQNFATSTKCVACQAPKP 29
RRM2_MRD1 cd12566
RNA recognition motif 2 (RRM2) found in yeast multiple RNA-binding domain-containing protein 1 ...
2-46 8.85e-05

RNA recognition motif 2 (RRM2) found in yeast multiple RNA-binding domain-containing protein 1 (MRD1) and similar proteins; This subgroup corresponds to the RRM2 of MRD1 which is encoded by a novel yeast gene MRD1 (multiple RNA-binding domain). It is well-conserved in yeast and its homologs exist in all eukaryotes. MRD1 is present in the nucleolus and the nucleoplasm. It interacts with the 35 S precursor rRNA (pre-rRNA) and U3 small nucleolar RNAs (snoRNAs). It is essential for the initial processing at the A0-A2 cleavage sites in the 35 S pre-rRNA. MRD1 contains 5 conserved RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), which may play an important structural role in organizing specific rRNA processing events.


Pssm-ID: 409982 [Multi-domain]  Cd Length: 79  Bit Score: 40.09  E-value: 8.85e-05
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKV 46
Cdd:cd12566    32 VHVPIDKKTKKSKGFAYVLFLDPEDAVQAYNELDGKVFQGRLIHI 76
RRM_CSTF2_CSTF2T cd12671
RNA recognition motif (RRM) found in cleavage stimulation factor subunit 2 (CSTF2), cleavage ...
4-51 3.19e-04

RNA recognition motif (RRM) found in cleavage stimulation factor subunit 2 (CSTF2), cleavage stimulation factor subunit 2 tau variant (CSTF2T) and similar proteins; This subgroup corresponds to the RRM domain of CSTF2, its tau variant and eukaryotic homologs. CSTF2, also termed cleavage stimulation factor 64 kDa subunit (CstF64), is the vertebrate conterpart of yeast mRNA 3'-end-processing protein RNA15. It is expressed in all somatic tissues and is one of three cleavage stimulatory factor (CstF) subunits required for polyadenylation. CstF64 contains an N-terminal RNA recognition motif (RRM), also known as RBD (RNA binding domain) or RNP (ribonucleoprotein domain), a CstF77-binding domain, a repeated MEARA helical region and a conserved C-terminal domain reported to bind the transcription factor PC-4. During polyadenylation, CstF interacts with the pre-mRNA through the RRM of CstF64 at U- or GU-rich sequences within 10 to 30 nucleotides downstream of the cleavage site. CSTF2T, also termed tauCstF64, is a paralog of the X-linked cleavage stimulation factor CstF64 protein that supports polyadenylation in most somatic cells. It is expressed during meiosis and subsequent haploid differentiation in a more limited set of tissues and cell types, largely in meiotic and postmeiotic male germ cells, and to a lesser extent in brain. The loss of CSTF2T will cause male infertility, as it is necessary for spermatogenesis and fertilization. Moreover, CSTF2T is required for expression of genes involved in morphological differentiation of spermatids, as well as for genes having products that function during interaction of motile spermatozoa with eggs. It promotes germ cell-specific patterns of polyadenylation by using its RRM to bind to different sequence elements downstream of polyadenylation sites than does CstF64.


Pssm-ID: 410072 [Multi-domain]  Cd Length: 85  Bit Score: 38.65  E-value: 3.19e-04
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*...
gi 1907083091   4 LYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFATR 51
Cdd:cd12671    38 LVYDRETGKPKGYGFCEYQDQETALSAMRNLNGYELNGRALRVDNAAS 85
RRM1_MSSP cd12243
RNA recognition motif 1 (RRM1) found in the c-myc gene single-strand binding proteins (MSSP) ...
6-41 4.71e-04

RNA recognition motif 1 (RRM1) found in the c-myc gene single-strand binding proteins (MSSP) family; This subfamily corresponds to the RRM1 of c-myc gene single-strand binding proteins (MSSP) family, including single-stranded DNA-binding protein MSSP-1 (also termed RBMS1 or SCR2) and MSSP-2 (also termed RBMS2 or SCR3). All MSSP family members contain two RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), both of which are responsible for the specific DNA binding activity. Both, MSSP-1 and -2, have been identified as protein factors binding to a putative DNA replication origin/transcriptional enhancer sequence present upstream from the human c-myc gene in both single- and double-stranded forms. Thus, they have been implied in regulating DNA replication, transcription, apoptosis induction, and cell-cycle movement, via the interaction with c-MYC, the product of protooncogene c-myc. Moreover, the family includes a new member termed RNA-binding motif, single-stranded-interacting protein 3 (RBMS3), which is not a transcriptional regulator. RBMS3 binds with high affinity to A/U-rich stretches of RNA, and to A/T-rich DNA sequences, and functions as a regulator of cytoplasmic activity. In addition, a putative meiosis-specific RNA-binding protein termed sporulation-specific protein 5 (SPO5, or meiotic RNA-binding protein 1, or meiotically up-regulated gene 12 protein), encoded by Schizosaccharomyces pombe Spo5/Mug12 gene, is also included in this family. SPO5 is a novel meiosis I regulator that may function in the vicinity of the Mei2 dot.


Pssm-ID: 409689 [Multi-domain]  Cd Length: 71  Bit Score: 38.06  E-value: 4.71e-04
                          10        20        30
                  ....*....|....*....|....*....|....*.
gi 1907083091   6 TDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHG 41
Cdd:cd12243    34 IDKQTNKCKGYGFVDFDSPEAALKAIEGLNGRGVQA 69
ZnF_RBZ smart00547
Zinc finger domain; Zinc finger domain in Ran-binding proteins (RanBPs), and other proteins. ...
87-113 4.91e-04

Zinc finger domain; Zinc finger domain in Ran-binding proteins (RanBPs), and other proteins. In RanBPs, this domain binds RanGDP.


Pssm-ID: 197784 [Multi-domain]  Cd Length: 25  Bit Score: 36.53  E-value: 4.91e-04
                           10        20
                   ....*....|....*....|....*..
gi 1907083091   87 GDWVCPnpSCGNMNFARRNSCNQCNEP 113
Cdd:smart00547   1 GDWECP--ACTFLNFASRSKCFACGAP 25
RRM1_TatSF1_like cd12281
RNA recognition motif 1 (RRM1) found in HIV Tat-specific factor 1 (Tat-SF1) and similar ...
2-50 5.48e-04

RNA recognition motif 1 (RRM1) found in HIV Tat-specific factor 1 (Tat-SF1) and similar proteins; This subfamily corresponds to the RRM1 of Tat-SF1 and CUS2. Tat-SF1 is the cofactor for stimulation of transcriptional elongation by human immunodeficiency virus-type 1 (HIV-1) Tat. It is a substrate of an associated cellular kinase. Tat-SF1 contains two RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), and a highly acidic carboxyl-terminal half. The family also includes CUS2, a yeast homolog of human Tat-SF1. CUS2 interacts with U2 RNA in splicing extracts and functions as a splicing factor that aids assembly of the splicing-competent U2 snRNP in vivo. CUS2 also associates with PRP11 that is a subunit of the conserved splicing factor SF3a. Like Tat-SF1, CUS2 contains two RRMs as well.


Pssm-ID: 409723 [Multi-domain]  Cd Length: 92  Bit Score: 38.30  E-value: 5.48e-04
                          10        20        30        40        50
                  ....*....|....*....|....*....|....*....|....*....|
gi 1907083091   2 INLYTDKDtGKPKGEATVSFDDPPSAKAAIDWFDGKE-FHGNIIKVSFAT 50
Cdd:cd12281    39 IKLYRDEN-GNLKGDALCCYLKEESVELALQLLDGTEiGRGYKIHVERAK 87
RRM1_Hu cd12650
RNA recognition motif 1 (RRM1) found in the Hu proteins family; This subfamily corresponds to ...
4-49 5.62e-04

RNA recognition motif 1 (RRM1) found in the Hu proteins family; This subfamily corresponds to the RRM1 of the Hu proteins family which represents a group of RNA-binding proteins involved in diverse biological processes. Since the Hu proteins share high homology with the Drosophila embryonic lethal abnormal vision (ELAV) protein, the Hu family is sometimes referred to as the ELAV family. Drosophila ELAV is exclusively expressed in neurons and is required for the correct differentiation and survival of neurons in flies. The neuronal members of the Hu family include Hu-antigen B (HuB or ELAV-2 or Hel-N1), Hu-antigen C (HuC or ELAV-3 or PLE21), and Hu-antigen D (HuD or ELAV-4), which play important roles in neuronal differentiation, plasticity and memory. HuB is also expressed in gonads. Hu-antigen R (HuR or ELAV-1 or HuA) is the ubiquitously expressed Hu family member. It has a variety of biological functions mostly related to the regulation of cellular response to DNA damage and other types of stress. HuR has an anti-apoptotic function during early cell stress response. It binds to mRNAs and enhances the expression of several anti-apoptotic proteins, such as p21waf1, p53, and prothymosin alpha. HuR also has pro-apoptotic function by promoting apoptosis when cell death is unavoidable. Furthermore, HuR may be important in muscle differentiation, adipogenesis, suppression of inflammatory response and modulation of gene expression in response to chronic ethanol exposure and amino acid starvation. Hu proteins perform their cytoplasmic and nuclear molecular functions by coordinately regulating functionally related mRNAs. In the cytoplasm, Hu proteins recognize and bind to AU-rich RNA elements (AREs) in the 3' untranslated regions (UTRs) of certain target mRNAs, such as GAP-43, vascular epithelial growth factor (VEGF), the glucose transporter GLUT1, eotaxin and c-fos, and stabilize those ARE-containing mRNAs. They also bind and regulate the translation of some target mRNAs, such as neurofilament M, GLUT1, and p27. In the nucleus, Hu proteins function as regulators of polyadenylation and alternative splicing. Each Hu protein contains three RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains). RRM1 and RRM2 may cooperate in binding to an ARE. RRM3 may help to maintain the stability of the RNA-protein complex, and might also bind to poly(A) tails or be involved in protein-protein interactions.


Pssm-ID: 410053 [Multi-domain]  Cd Length: 77  Bit Score: 37.77  E-value: 5.62e-04
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*.
gi 1907083091   4 LYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFA 49
Cdd:cd12650    32 LIRDKVTGQSLGYGFVNYVDPSDAEKAINTLNGLRLQNKTIKVSYA 77
RRM2_SART3 cd12392
RNA recognition motif 2 (RRM2) found in squamous cell carcinoma antigen recognized by T-cells ...
11-47 6.66e-04

RNA recognition motif 2 (RRM2) found in squamous cell carcinoma antigen recognized by T-cells 3 (SART3) and similar proteins; This subfamily corresponds to the RRM2 of SART3, also termed Tat-interacting protein of 110 kDa (Tip110), is an RNA-binding protein expressed in the nucleus of the majority of proliferating cells, including normal cells and malignant cells, but not in normal tissues except for the testes and fetal liver. It is involved in the regulation of mRNA splicing probably via its complex formation with RNA-binding protein with a serine-rich domain (RNPS1), a pre-mRNA-splicing factor. SART3 has also been identified as a nuclear Tat-interacting protein that regulates Tat transactivation activity through direct interaction and functions as an important cellular factor for HIV-1 gene expression and viral replication. In addition, SART3 is required for U6 snRNP targeting to Cajal bodies. It binds specifically and directly to the U6 snRNA, interacts transiently with the U6 and U4/U6 snRNPs, and promotes the reassembly of U4/U6 snRNPs after splicing in vitro. SART3 contains an N-terminal half-a-tetratricopeptide repeat (HAT)-rich domain, a nuclearlocalization signal (NLS) domain, and two C-terminal RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains).


Pssm-ID: 409826 [Multi-domain]  Cd Length: 81  Bit Score: 37.70  E-value: 6.66e-04
                          10        20        30
                  ....*....|....*....|....*....|....*..
gi 1907083091  11 GKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVS 47
Cdd:cd12392    40 GKPKGLAYVEYENEADASQAVLKTDGTEIKDHTISVA 76
RRM_Aly_REF_like cd12418
RNA recognition motif (RRM) found in the Aly/REF family; This subfamily corresponds to the RRM ...
10-46 9.49e-04

RNA recognition motif (RRM) found in the Aly/REF family; This subfamily corresponds to the RRM of Aly/REF family which includes THO complex subunit 4 (THOC4, also termed Aly/REF), S6K1 Aly/REF-like target (SKAR, also termed PDIP3 or PDIP46) and similar proteins. THOC4 is an mRNA transporter protein with a well conserved RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain). It is involved in RNA transportation from the nucleus, and was initially identified as a transcription coactivator of LEF-1 and AML-1 for the TCRalpha enhancer function. In addition, THOC4 specifically binds to rhesus (RH) promoter in erythroid, and might be a novel transcription cofactor for erythroid-specific genes. SKAR shows high sequence homology with THOC4 and possesses one RRM as well. SKAR is widely expressed and localizes to the nucleus. It may be a critical player in the function of S6K1 in cell and organism growth control by binding the activated, hyperphosphorylated form of S6K1 but not S6K2. Furthermore, SKAR functions as a protein partner of the p50 subunit of DNA polymerase delta. In addition, SKAR may have particular importance in pancreatic beta cell size determination and insulin secretion.


Pssm-ID: 409852 [Multi-domain]  Cd Length: 75  Bit Score: 37.17  E-value: 9.49e-04
                          10        20        30
                  ....*....|....*....|....*....|....*..
gi 1907083091  10 TGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKV 46
Cdd:cd12418    37 SGRSTGTAYVVFERPEDAEKAIKQFDGVLLDGQPMKV 73
RRM4_NCL cd12406
RNA recognition motif 4 (RRM4) found in vertebrate nucleolin; This subfamily corresponds to ...
6-49 1.07e-03

RNA recognition motif 4 (RRM4) found in vertebrate nucleolin; This subfamily corresponds to the RRM4 of ubiquitously expressed protein nucleolin, also termed protein C23, is a multifunctional major nucleolar phosphoprotein that has been implicated in various metabolic processes, such as ribosome biogenesis, cytokinesis, nucleogenesis, cell proliferation and growth, cytoplasmic-nucleolar transport of ribosomal components, transcriptional repression, replication, signal transduction, inducing chromatin decondensation, etc. Nucleolin exhibits intrinsic self-cleaving, DNA helicase, RNA helicase and DNA-dependent ATPase activities. It can be phosphorylated by many protein kinases, such as the major mitotic kinase Cdc2, casein kinase 2 (CK2), and protein kinase C-zeta. Nucleolin shares similar domain architecture with gar2 from Schizosaccharomyces pombe and NSR1 from Saccharomyces cerevisiae. The highly phosphorylated N-terminal domain of nucleolin is made up of highly acidic regions separated from each other by basic sequences, and contains multiple phosphorylation sites. The central domain of nucleolin contains four closely adjacent N-terminal RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), which suggests that nucleolin is potentially able to interact with multiple RNA targets. The C-terminal RGG (or GAR) domain of nucleolin is rich in glycine, arginine and phenylalanine residues, and contains high levels of NG,NG-dimethylarginines.


Pssm-ID: 409840 [Multi-domain]  Cd Length: 78  Bit Score: 37.20  E-value: 1.07e-03
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....
gi 1907083091   6 TDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFA 49
Cdd:cd12406    31 TDRDTGSSKGFGFVDFSSEEDAKAAKEAMEDGEIDGNKVTLDFA 74
RRM2_SXL cd12651
RNA recognition motif 2 (RRM2) found in Drosophila sex-lethal (SXL) and similar proteins; This ...
3-47 1.12e-03

RNA recognition motif 2 (RRM2) found in Drosophila sex-lethal (SXL) and similar proteins; This subfamily corresponds to the RRM2 of the sex-lethal protein (SXL) which governs sexual differentiation and X chromosome dosage compensation in Drosophila melanogaster. It induces female-specific alternative splicing of the transformer (tra) pre-mRNA by binding to the tra uridine-rich polypyrimidine tract at the non-sex-specific 3' splice site during the sex-determination process. SXL binds also to its own pre-mRNA and promotes female-specific alternative splicing. SXL contains an N-terminal Gly/Asn-rich domain that may be responsible for the protein-protein interaction, and tandem RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), that show high preference to bind single-stranded, uridine-rich target RNA transcripts.


Pssm-ID: 410054 [Multi-domain]  Cd Length: 81  Bit Score: 37.18  E-value: 1.12e-03
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*
gi 1907083091   3 NLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVS 47
Cdd:cd12651    33 NLLRDKLTGRPRGVAFVRYDKREEAQAAISALNGTIPEGGTQPLS 77
RRM2_PHIP1 cd12272
RNA recognition motif 2 (RRM2) found in Arabidopsis thaliana phragmoplastin interacting ...
2-47 1.26e-03

RNA recognition motif 2 (RRM2) found in Arabidopsis thaliana phragmoplastin interacting protein 1 (PHIP1) and similar proteins; The CD corresponds to the RRM2 of PHIP1. A. thaliana PHIP1 and its homologs represent a novel class of plant-specific RNA-binding proteins that may play a unique role in the polarized mRNA transport to the vicinity of the cell plate. The family members consist of multiple functional domains, including a lysine-rich domain (KRD domain) that contains three nuclear localization motifs (KKKR/NK), two RNA recognition motifs (RRMs), and three CCHC-type zinc fingers. PHIP1 is a peripheral membrane protein and is localized at the cell plate during cytokinesis in plants. In addition to phragmoplastin, PHIP1 interacts with two Arabidopsis small GTP-binding proteins, Rop1 and Ran2. However, PHIP1 interacted only with the GTP-bound form of Rop1 but not the GDP-bound form. It also binds specifically to Ran2 mRNA.


Pssm-ID: 409715 [Multi-domain]  Cd Length: 73  Bit Score: 36.61  E-value: 1.26e-03
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*.
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDwFDGKEFHGNIIKVS 47
Cdd:cd12272    29 VRLHTDKETGEFKGYGHVEFADEESLDAALK-LAGTKLCGRPIRVD 73
RRM_ZCRB1 cd12393
RNA recognition motif (RRM) found in Zinc finger CCHC-type and RNA-binding motif-containing ...
7-47 1.33e-03

RNA recognition motif (RRM) found in Zinc finger CCHC-type and RNA-binding motif-containing protein 1 (ZCRB1) and similar proteins; This subfamily corresponds to the RRM of ZCRB1, also termed MADP-1, or U11/U12 small nuclear ribonucleoprotein 31 kDa protein (U11/U12 snRNP 31 or U11/U12-31K), a novel multi-functional nuclear factor, which may be involved in morphine dependence, cold/heat stress, and hepatocarcinoma. It is located in the nucleoplasm, but outside the nucleolus. ZCRB1 is one of the components of U11/U12 snRNPs that bind to U12-type pre-mRNAs and form a di-snRNP complex, simultaneously recognizing the 5' splice site and branchpoint sequence. ZCRB1 is characterized by an RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain), and a CCHC-type Zinc finger motif. In addition, it contains core nucleocapsid motifs, and Lys- and Glu-rich domains.


Pssm-ID: 409827 [Multi-domain]  Cd Length: 76  Bit Score: 36.88  E-value: 1.33e-03
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|.
gi 1907083091   7 DKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVS 47
Cdd:cd12393    36 DKETRKSKGVAFVLFLDRESAHNAVRAMNNKELFGRTLKCS 76
RRM_CIRBP_RBM3 cd12449
RNA recognition motif (RRM) found in cold inducible RNA binding protein (CIRBP), RNA binding ...
7-49 1.39e-03

RNA recognition motif (RRM) found in cold inducible RNA binding protein (CIRBP), RNA binding motif protein 3 (RBM3) and similar proteins; This subfamily corresponds to the RRM domain of two structurally related heterogenous nuclear ribonucleoproteins, CIRBP (also termed CIRP or A18 hnRNP) and RBM3 (also termed RNPL), both of which belong to a highly conserved cold shock proteins family. The cold shock proteins can be induced after exposure to a moderate cold-shock and other cellular stresses such as UV radiation and hypoxia. CIRBP and RBM3 may function in posttranscriptional regulation of gene expression by binding to different transcripts, thus allowing the cell to response rapidly to environmental signals. However, the kinetics and degree of cold induction are different between CIRBP and RBM3. Tissue distribution of their expression is different. CIRBP and RBM3 may be differentially regulated under physiological and stress conditions and may play distinct roles in cold responses of cells. CIRBP, also termed glycine-rich RNA-binding protein CIRP, is localized in the nucleus and mediates the cold-induced suppression of cell cycle progression. CIRBP also binds DNA and possibly serves as a chaperone that assists in the folding/unfolding, assembly/disassembly and transport of various proteins. RBM3 may enhance global protein synthesis and the formation of active polysomes while reducing the levels of ribonucleoprotein complexes containing microRNAs. RBM3 may also serve to prevent the loss of muscle mass by its ability to decrease cell death. Furthermore, RBM3 may be essential for cell proliferation and mitosis. Both, CIRBP and RBM3, contain an N-terminal RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain), that is involved in RNA binding, and C-terminal glycine-rich domain (RGG motif) that probably enhances RNA-binding via protein-protein and/or protein-RNA interactions. Like CIRBP, RBM3 can also bind to both RNA and DNA via its RRM domain.


Pssm-ID: 409883 [Multi-domain]  Cd Length: 80  Bit Score: 36.69  E-value: 1.39e-03
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|...
gi 1907083091   7 DKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFA 49
Cdd:cd12449    35 DRETQRSRGFGFVTFENPDDAKDAMMAMNGKSLDGRQIRVDQA 77
RRM1_U1A_like cd12246
RNA recognition motif 1 (RRM1) found in the U1A/U2B"/SNF protein family; This subfamily ...
12-49 1.55e-03

RNA recognition motif 1 (RRM1) found in the U1A/U2B"/SNF protein family; This subfamily corresponds to the RRM1 of U1A/U2B"/SNF protein family which contains Drosophila sex determination protein SNF and its two mammalian counterparts, U1 small nuclear ribonucleoprotein A (U1 snRNP A or U1-A or U1A) and U2 small nuclear ribonucleoprotein B" (U2 snRNP B" or U2B"), all of which consist of two RNA recognition motifs (RRMs), connected by a variable, flexible linker. SNF is an RNA-binding protein found in the U1 and U2 snRNPs of Drosophila where it is essential in sex determination and possesses a novel dual RNA binding specificity. SNF binds with high affinity to both Drosophila U1 snRNA stem-loop II (SLII) and U2 snRNA stem-loop IV (SLIV). It can also bind to poly(U) RNA tracts flanking the alternatively spliced Sex-lethal (Sxl) exon, as does Drosophila Sex-lethal protein (SXL). U1A is an RNA-binding protein associated with the U1 snRNP, a small RNA-protein complex involved in pre-mRNA splicing. U1A binds with high affinity and specificity to stem-loop II (SLII) of U1 snRNA. It is predominantly a nuclear protein that shuttles between the nucleus and the cytoplasm independently of interactions with U1 snRNA. Moreover, U1A may be involved in RNA 3'-end processing, specifically cleavage, splicing and polyadenylation, through interacting with a large number of non-snRNP proteins. U2B", initially identified to bind to stem-loop IV (SLIV) at the 3' end of U2 snRNA, is a unique protein that comprises of the U2 snRNP. Additional research indicates U2B" binds to U1 snRNA stem-loop II (SLII) as well and shows no preference for SLIV or SLII on the basis of binding affinity. Moreover, U2B" does not require an auxiliary protein for binding to RNA, and its nuclear transport is independent of U2 snRNA binding.


Pssm-ID: 409692 [Multi-domain]  Cd Length: 78  Bit Score: 36.74  E-value: 1.55e-03
                          10        20        30
                  ....*....|....*....|....*....|....*...
gi 1907083091  12 KPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFA 49
Cdd:cd12246    40 KMRGQAFVVFKDVESATNALRALQGFPFYGKPMRIQYA 77
RRM3_I_PABPs cd12380
RNA recognition motif 3 (RRM3) found found in type I polyadenylate-binding proteins; This ...
9-52 1.58e-03

RNA recognition motif 3 (RRM3) found found in type I polyadenylate-binding proteins; This subfamily corresponds to the RRM3 of type I poly(A)-binding proteins (PABPs), highly conserved proteins that bind to the poly(A) tail present at the 3' ends of most eukaryotic mRNAs. They have been implicated in the regulation of poly(A) tail length during the polyadenylation reaction, translation initiation, mRNA stabilization by influencing the rate of deadenylation and inhibition of mRNA decapping. The family represents type I polyadenylate-binding proteins (PABPs), including polyadenylate-binding protein 1 (PABP-1 or PABPC1), polyadenylate-binding protein 3 (PABP-3 or PABPC3), polyadenylate-binding protein 4 (PABP-4 or APP-1 or iPABP), polyadenylate-binding protein 5 (PABP-5 or PABPC5), polyadenylate-binding protein 1-like (PABP-1-like or PABPC1L), polyadenylate-binding protein 1-like 2 (PABPC1L2 or RBM32), polyadenylate-binding protein 4-like (PABP-4-like or PABPC4L), yeast polyadenylate-binding protein, cytoplasmic and nuclear (PABP or ACBP-67), and similar proteins. PABP-1 is an ubiquitously expressed multifunctional protein that may play a role in 3' end formation of mRNA, translation initiation, mRNA stabilization, protection of poly(A) from nuclease activity, mRNA deadenylation, inhibition of mRNA decapping, and mRNP maturation. Although PABP-1 is thought to be a cytoplasmic protein, it is also found in the nucleus. PABP-1 may be involved in nucleocytoplasmic trafficking and utilization of mRNP particles. PABP-1 contains four copies of RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), a less well conserved linker region, and a proline-rich C-terminal conserved domain (CTD). PABP-3 is a testis-specific poly(A)-binding protein specifically expressed in round spermatids. It is mainly found in mammalian and may play an important role in the testis-specific regulation of mRNA homeostasis. PABP-3 shows significant sequence similarity to PABP-1. However, it binds to poly(A) with a lower affinity than PABP-1. PABP-1 possesses an A-rich sequence in its 5'-UTR and allows binding of PABP and blockage of translation of its own mRNA. In contrast, PABP-3 lacks the A-rich sequence in its 5'-UTR. PABP-4 is an inducible poly(A)-binding protein (iPABP) that is primarily localized to the cytoplasm. It shows significant sequence similarity to PABP-1 as well. The RNA binding properties of PABP-1 and PABP-4 appear to be identical. PABP-5 is encoded by PABPC5 gene within the X-specific subinterval, and expressed in fetal brain and in a range of adult tissues in mammalian, such as ovary and testis. It may play an important role in germ cell development. Moreover, unlike other PABPs, PABP-5 contains only four RRMs, but lacks both the linker region and the CTD. PABP-1-like and PABP-1-like 2 are the orthologs of PABP-1. PABP-4-like is the ortholog of PABP-5. Their cellular functions remain unclear. The family also includes the yeast PABP, a conserved poly(A) binding protein containing poly(A) tails that can be attached to the 3'-ends of mRNAs. The yeast PABP and its homologs may play important roles in the initiation of translation and in mRNA decay. Like vertebrate PABP-1, the yeast PABP contains four RRMs, a linker region, and a proline-rich CTD as well. The first two RRMs are mainly responsible for specific binding to poly(A). The proline-rich region may be involved in protein-protein interactions.


Pssm-ID: 409814 [Multi-domain]  Cd Length: 80  Bit Score: 36.77  E-value: 1.58e-03
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....
gi 1907083091   9 DTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFATRR 52
Cdd:cd12380    37 DSGKSKGFGFVNFENHEAAQKAVEELNGKELNGKKLYVGRAQKK 80
RRM3_HRB1_GBP2 cd21607
RNA recognition motif 3 (RRM3) found in Saccharomyces cerevisiae protein HRB1, ...
9-50 2.93e-03

RNA recognition motif 3 (RRM3) found in Saccharomyces cerevisiae protein HRB1, G-strand-binding protein 2 (GBP2) and similar proteins; The family includes Saccharomyces cerevisiae protein HRB1 (also called protein TOM34) and GBP2, both of which are SR-like mRNA-binding proteins which shuttle from the nucleus to the cytoplasm when bound to the mature mRNA molecules. They act as quality control factors for spliced mRNAs. GBP2, also called RAP1 localization factor 6, is a single-strand telomeric DNA-binding protein that binds single-stranded telomeric sequences of the type (TG[1-3])n in vitro. It also binds to RNA. GBP2 influences the localization of RAP1 in the nuclei and plays a role in modulating telomere length. Members in this family contain three RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains). The model corresponds to the third RRM motif.


Pssm-ID: 410186 [Multi-domain]  Cd Length: 79  Bit Score: 35.76  E-value: 2.93e-03
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|..
gi 1907083091   9 DTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFAT 50
Cdd:cd21607    38 ETGDPTGSAVVEYENLDDADVCISKLNNYNYGGCDLKISYAK 79
RRM_NIFK_like cd12307
RNA recognition motif in nucleolar protein interacting with the FHA domain of pKI-67 (NIFK) ...
8-47 4.23e-03

RNA recognition motif in nucleolar protein interacting with the FHA domain of pKI-67 (NIFK) and similar proteins; This subgroup corresponds to the RRM of NIFK and Nop15p. NIFK, also termed MKI67 FHA domain-interacting nucleolar phosphoprotein, or nucleolar phosphoprotein Nopp34, is a putative RNA-binding protein interacting with the forkhead associated (FHA) domain of pKi-67 antigen in a mitosis-specific and phosphorylation-dependent manner. It is nucleolar in interphase but associates with condensed mitotic chromosomes. This family also includes Saccharomyces cerevisiae YNL110C gene encoding ribosome biogenesis protein 15 (Nop15p), also termed nucleolar protein 15. Both, NIFK and Nop15p, contain an RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain).


Pssm-ID: 409748 [Multi-domain]  Cd Length: 74  Bit Score: 35.24  E-value: 4.23e-03
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|
gi 1907083091   8 KDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVS 47
Cdd:cd12307    35 KKTGKSKGYAFVEFEDPEVAKIVAETMNNYLLFERLLKCK 74
RRM_II_PABPN1L cd12551
RNA recognition motif in vertebrate type II embryonic polyadenylate-binding protein 2 (ePABP-2) ...
2-46 4.92e-03

RNA recognition motif in vertebrate type II embryonic polyadenylate-binding protein 2 (ePABP-2); This subgroup corresponds to the RRM of ePABP-2, also termed embryonic poly(A)-binding protein 2, or poly(A)-binding protein nuclear-like 1 (PABPN1L). ePABP-2 is a novel embryonic-specific cytoplasmic type II poly(A)-binding protein that is expressed during the early stages of vertebrate development and in adult ovarian tissue. It may play an important role in the poly(A) metabolism of stored mRNAs during early vertebrate development. ePABP-2 shows significant sequence similarity to the ubiquitously expressed nuclear polyadenylate-binding protein 2 (PABP-2 or PABPN1). Like PABP-2, ePABP-2 contains one RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain), which is responsible for the poly(A) binding. In addition, it possesses an acidic N-terminal domain predicted to form a coiled-coil and an arginine-rich C-terminal domain.


Pssm-ID: 409967 [Multi-domain]  Cd Length: 77  Bit Score: 35.19  E-value: 4.92e-03
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDwFDGKEFHGNIIKV 46
Cdd:cd12551    29 VTILCDKFSGHPKGYAYIEFATRSSVQAAVA-LDESSFRGRVIKV 72
RRM1_PSRP2_like cd21609
RNA recognition motif 1 (RRM1) found in chloroplastic plastid-specific 30S ribosomal protein 2 ...
7-49 5.10e-03

RNA recognition motif 1 (RRM1) found in chloroplastic plastid-specific 30S ribosomal protein 2 (PSRP-2) and similar proteins; PSRP-2, also called chloroplastic 30S ribosomal protein 2, or chloroplastic small ribosomal subunit protein cS22, is a component of the chloroplast ribosome (chloro-ribosome), a dedicated translation machinery responsible for the synthesis of chloroplast genome-encoded proteins, including proteins of the transcription and translation machinery and components of the photosynthetic apparatus. It binds single strand DNA (ssDNA) and RNA in vitro. It exhibits RNA chaperone activity and regulates negatively resistance responses to abiotic stresses during seed germination (e.g. salt, dehydration, and low temperature) and seedling growth (e.g. salt). The family also includes Nicotiana sylvestris chloroplastic 33 kDa ribonucleoprotein (NsCP33) and Arabidopsis thaliana chloroplastic 31 kDa ribonucleoprotein (AtCP31A). NsCP33 may be involved in splicing and/or processing of chloroplast RNA's. AtCP31A, also called RNA-binding protein 1/2/3 (AtRBP33), or RNA-binding protein CP31A, or RNA-binding protein RNP-T, or RNA-binding protein cp31, is required for specific RNA editing events in chloroplasts and stabilizes specific chloroplast mRNAs, as well as for normal chloroplast development under cold stress conditions by stabilizing transcripts of numerous mRNAs under these conditions. CP31A may modulate telomere replication through RNA binding domains. Members in this family contain two RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains). The model corresponds to the first RRM motif.


Pssm-ID: 410188 [Multi-domain]  Cd Length: 80  Bit Score: 35.09  E-value: 5.10e-03
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|...
gi 1907083091   7 DKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFA 49
Cdd:cd21609    34 DRYTGRSRGFGFVTMGSVEDAKAAIEKLNGTEVGGREIKVNIT 76
RRM3_RBM19 cd12567
RNA recognition motif 3 (RRM3) found in RNA-binding protein 19 (RBM19) and similar proteins; ...
2-46 5.50e-03

RNA recognition motif 3 (RRM3) found in RNA-binding protein 19 (RBM19) and similar proteins; This subgroup corresponds to the RRM3 of RBM19, also termed RNA-binding domain-1 (RBD-1), which is a nucleolar protein conserved in eukaryotes. It is involved in ribosome biogenesis by processing rRNA. In addition, it is essential for preimplantation development. RBM19 has a unique domain organization containing 6 conserved RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains).


Pssm-ID: 409983 [Multi-domain]  Cd Length: 79  Bit Score: 35.06  E-value: 5.50e-03
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKV 46
Cdd:cd12567    32 VHFPIDSLTKKPKGFAFVTYMIPEHAVKAYAELDGTVFQGRLLHL 76
RRM1_NUCLs cd12450
RNA recognition motif 1 (RRM1) found in nucleolin-like proteins mainly from plants; This ...
6-52 5.57e-03

RNA recognition motif 1 (RRM1) found in nucleolin-like proteins mainly from plants; This subfamily corresponds to the RRM1 of a group of plant nucleolin-like proteins, including nucleolin 1 (also termed protein nucleolin like 1) and nucleolin 2 (also termed protein nucleolin like 2, or protein parallel like 1). They play roles in the regulation of ribosome synthesis and in the growth and development of plants. Like yeast nucleolin, nucleolin-like proteins possess two RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains).


Pssm-ID: 409884 [Multi-domain]  Cd Length: 78  Bit Score: 35.07  E-value: 5.57e-03
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*..
gi 1907083091   6 TDKDTGKPKGEATVSFDDPPSAKAAIDwFDGKEFHGNIIKVSFATRR 52
Cdd:cd12450    33 MDRDDGRSKGFGHVEFASAESAQKALE-KSGQDLGGREIRLDLANER 78
RRM1_Hu_like cd12375
RNA recognition motif 1 (RRM1) found in the Hu proteins family, Drosophila sex-lethal (SXL), ...
7-49 6.14e-03

RNA recognition motif 1 (RRM1) found in the Hu proteins family, Drosophila sex-lethal (SXL), and similar proteins; This subfamily corresponds to the RRM1 of Hu proteins and SXL. The Hu proteins family represents a group of RNA-binding proteins involved in diverse biological processes. Since the Hu proteins share high homology with the Drosophila embryonic lethal abnormal vision (ELAV) protein, the Hu family is sometimes referred to as the ELAV family. Drosophila ELAV is exclusively expressed in neurons and is required for the correct differentiation and survival of neurons in flies. The neuronal members of the Hu family include Hu-antigen B (HuB or ELAV-2 or Hel-N1), Hu-antigen C (HuC or ELAV-3 or PLE21), and Hu-antigen D (HuD or ELAV-4), which play important roles in neuronal differentiation, plasticity and memory. HuB is also expressed in gonads. Hu-antigen R (HuR or ELAV-1 or HuA) is ubiquitously expressed Hu family member. It has a variety of biological functions mostly related to the regulation of cellular response to DNA damage and other types of stress. Hu proteins perform their cytoplasmic and nuclear molecular functions by coordinately regulating functionally related mRNAs. In the cytoplasm, Hu proteins recognize and bind to AU-rich RNA elements (AREs) in the 3' untranslated regions (UTRs) of certain target mRNAs, such as GAP-43, vascular epithelial growth factor (VEGF), the glucose transporter GLUT1, eotaxin and c-fos, and stabilize those ARE-containing mRNAs. They also bind and regulate the translation of some target mRNAs, such as neurofilament M, GLUT1, and p27. In the nucleus, Hu proteins function as regulators of polyadenylation and alternative splicing. Each Hu protein contains three RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains). RRM1 and RRM2 may cooperate in binding to an ARE. RRM3 may help to maintain the stability of the RNA-protein complex, and might also bind to poly(A) tails or be involved in protein-protein interactions. This family also includes the sex-lethal protein (SXL) from Drosophila melanogaster. SXL governs sexual differentiation and X chromosome dosage compensation in flies. It induces female-specific alternative splicing of the transformer (tra) pre-mRNA by binding to the tra uridine-rich polypyrimidine tract at the non-sex-specific 3' splice site during the sex-determination process. SXL binds to its own pre-mRNA and promotes female-specific alternative splicing. It contains an N-terminal Gly/Asn-rich domain that may be responsible for the protein-protein interaction, and tandem RRMs that show high preference to bind single-stranded, uridine-rich target RNA transcripts.


Pssm-ID: 409810 [Multi-domain]  Cd Length: 76  Bit Score: 35.08  E-value: 6.14e-03
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|...
gi 1907083091   7 DKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFA 49
Cdd:cd12375    34 DKITGQSLGYGFVNYRDPNDARKAINTLNGLDLENKRLKVSYA 76
RRM_TRA2 cd12363
RNA recognition motif (RRM) found in transformer-2 protein homolog TRA2-alpha, TRA2-beta and ...
2-49 6.81e-03

RNA recognition motif (RRM) found in transformer-2 protein homolog TRA2-alpha, TRA2-beta and similar proteins; This subfamily corresponds to the RRM of two mammalian homologs of Drosophila transformer-2 (Tra2), TRA2-alpha, TRA2-beta (also termed SFRS10), and similar proteins found in eukaryotes. TRA2-alpha is a 40-kDa serine/arginine-rich (SR) protein that specifically binds to gonadotropin-releasing hormone (GnRH) exonic splicing enhancer on exon 4 (ESE4) and is necessary for enhanced GnRH pre-mRNA splicing. It strongly stimulates GnRH intron A excision in a dose-dependent manner. In addition, TRA2-alpha can interact with either 9G8 or SRp30c, which may also be crucial for ESE-dependent GnRH pre-mRNA splicing. TRA2-beta is a serine/arginine-rich (SR) protein that controls the pre-mRNA alternative splicing of the calcitonin/calcitonin gene-related peptide (CGRP), the survival motor neuron 1 (SMN1) protein and the tau protein. Both, TRA2-alpha and TRA2-beta, contains a well conserved RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain), flanked by the N- and C-terminal arginine/serine (RS)-rich regions.


Pssm-ID: 409798 [Multi-domain]  Cd Length: 80  Bit Score: 34.90  E-value: 6.81e-03
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*...
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFA 49
Cdd:cd12363    31 VQVVYDQQTGRSRGFGFVYFESVEDAKEAKERLNGQEIDGRRIRVDYS 78
RRM_SRSF3_like cd12373
RNA recognition motif (RRM) found in serine/arginine-rich splicing factor 3 (SRSF3) and ...
12-51 7.10e-03

RNA recognition motif (RRM) found in serine/arginine-rich splicing factor 3 (SRSF3) and similar proteins; This subfamily corresponds to the RRM of two serine/arginine (SR) proteins, serine/arginine-rich splicing factor 3 (SRSF3) and serine/arginine-rich splicing factor 7 (SRSF7). SRSF3, also termed pre-mRNA-splicing factor SRp20, modulates alternative splicing by interacting with RNA cis-elements in a concentration- and cell differentiation-dependent manner. It is also involved in termination of transcription, alternative RNA polyadenylation, RNA export, and protein translation. SRSF3 is critical for cell proliferation, and tumor induction and maintenance. It can shuttle between the nucleus and cytoplasm. SRSF7, also termed splicing factor 9G8, plays a crucial role in both constitutive splicing and alternative splicing of many pre-mRNAs. Its localization and functions are tightly regulated by phosphorylation. SRSF7 is predominantly present in the nuclear and can shuttle between nucleus and cytoplasm. It cooperates with the export protein, Tap/NXF1, helps mRNA export to the cytoplasm, and enhances the expression of unspliced mRNA. Moreover, SRSF7 inhibits tau E10 inclusion through directly interacting with the proximal downstream intron of E10, a clustering region for frontotemporal dementia with Parkinsonism (FTDP) mutations. Both SRSF3 and SRSF7 contain a single N-terminal RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain), and a C-terminal RS domain rich in serine-arginine dipeptides. The RRM domain is involved in RNA binding, and the RS domain has been implicated in protein shuttling and protein-protein interactions.


Pssm-ID: 409808 [Multi-domain]  Cd Length: 73  Bit Score: 34.53  E-value: 7.10e-03
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|
gi 1907083091  12 KPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSFATR 51
Cdd:cd12373    34 NPPGFAFVEFEDPRDAEDAVRALDGRRICGSRVRVELSRG 73
RRM2_TatSF1_like cd12282
RNA recognition motif 2 (RRM2) found in HIV Tat-specific factor 1 (Tat-SF1) and similar ...
13-48 7.94e-03

RNA recognition motif 2 (RRM2) found in HIV Tat-specific factor 1 (Tat-SF1) and similar proteins; This subfamily corresponds to the RRM2 of Tat-SF1 and CUS2. Tat-SF1 is the cofactor for stimulation of transcriptional elongation by human immunodeficiency virus-type 1 (HIV-1) Tat. It is a substrate of an associated cellular kinase. Tat-SF1 contains two RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), and a highly acidic carboxyl-terminal half. The family also includes CUS2, a yeast homolog of human Tat-SF1. CUS2 interacts with U2 RNA in splicing extracts and functions as a splicing factor that aids assembly of the splicing-competent U2 snRNP in vivo. CUS2 also associates with PRP11 that is a subunit of the conserved splicing factor SF3a. Like Tat-SF1, CUS2 contains two RRMs as well.


Pssm-ID: 409724 [Multi-domain]  Cd Length: 91  Bit Score: 34.91  E-value: 7.94e-03
                          10        20        30
                  ....*....|....*....|....*....|....*.
gi 1907083091  13 PKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSF 48
Cdd:cd12282    49 PDGVASVKFKEPEEADKCIQALNGRWFAGRKLEAET 84
RRM2_hnRNPA_like cd12328
RNA recognition motif 2 (RRM2) found in heterogeneous nuclear ribonucleoprotein A subfamily; ...
2-31 7.94e-03

RNA recognition motif 2 (RRM2) found in heterogeneous nuclear ribonucleoprotein A subfamily; This subfamily corresponds to the RRM2 of hnRNP A0, hnRNP A1, hnRNP A2/B1, hnRNP A3 and similar proteins. hnRNP A0 is a low abundance hnRNP protein that has been implicated in mRNA stability in mammalian cells. It has been identified as the substrate for MAPKAP-K2 and may be involved in the lipopolysaccharide (LPS)-induced post-transcriptional regulation of tumor necrosis factor-alpha (TNF-alpha), cyclooxygenase 2 (COX-2) and macrophage inflammatory protein 2 (MIP-2). hnRNP A1 is an abundant eukaryotic nuclear RNA-binding protein that may modulate splice site selection in pre-mRNA splicing. hnRNP A2/B1 is an RNA trafficking response element-binding protein that interacts with the hnRNP A2 response element (A2RE). Many mRNAs, such as myelin basic protein (MBP), myelin-associated oligodendrocytic basic protein (MOBP), carboxyanhydrase II (CAII), microtubule-associated protein tau, and amyloid precursor protein (APP) are trafficked by hnRNP A2/B1. hnRNP A3 is also a RNA trafficking response element-binding protein that participates in the trafficking of A2RE-containing RNA. The hnRNP A subfamily is characterized by two RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), followed by a long glycine-rich region at the C-terminus.


Pssm-ID: 409766 [Multi-domain]  Cd Length: 73  Bit Score: 34.55  E-value: 7.94e-03
                          10        20        30
                  ....*....|....*....|....*....|
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAI 31
Cdd:cd12328    29 VEIVTDKETGKKRGFAFVTFDDHDSVDKIV 58
RRM_Nop6 cd12400
RNA recognition motif (RRM) found in Saccharomyces cerevisiae nucleolar protein 6 (Nop6) and ...
2-46 8.48e-03

RNA recognition motif (RRM) found in Saccharomyces cerevisiae nucleolar protein 6 (Nop6) and similar proteins; This subfamily corresponds to the RRM of Nop6, also known as Ydl213c, a component of 90S pre-ribosomal particles in yeast S. cerevisiae. It is enriched in the nucleolus and is required for 40S ribosomal subunit biogenesis. Nop6 is a non-essential putative RNA-binding protein with two N-terminal putative nuclear localisation sequences (NLS-1 and NLS-2) and an RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain). It binds to the pre-rRNA early during transcription and plays an essential role in pre-rRNA processing.


Pssm-ID: 409834 [Multi-domain]  Cd Length: 74  Bit Score: 34.50  E-value: 8.48e-03
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDwFDGKEFHGNIIKV 46
Cdd:cd12400    30 VRLLTDKKTGKSKGCAFVEFDNQKALQKALK-LHHTSLGGRKINV 73
RRM_Set1 cd12304
RNA recognition motif in the Set1-like family of histone-lysine N-methyltransferases; This ...
2-48 9.57e-03

RNA recognition motif in the Set1-like family of histone-lysine N-methyltransferases; This subfamily corresponds to the RRM of the Set1-like family of histone-lysine N-methyltransferases which includes Set1A and Set1B that are ubiquitously expressed vertebrates histone methyltransferases exhibiting high homology to yeast Set1. Set1A and Set1B proteins exhibit a largely non-overlapping subnuclear distribution in euchromatic nuclear speckles, strongly suggesting that they bind to a unique set of target genes and thus make non-redundant contributions to the epigenetic control of chromatin structure and gene expression. With the exception of the catalytic component, the subunit composition of the Set1A and Set1B histone methyltransferase complexes are identical. Each complex contains six human homologs of the yeast Set1/COMPASS complex, including Set1A or Set1B, Ash2 (homologous to yeast Bre2), CXXC finger protein 1 (CFP1; homologous to yeast Spp1), Rbbp5 (homologous to yeast Swd1), Wdr5 (homologous to yeast Swd3), and Wdr82 (homologous to yeast Swd2). The genomic targeting of these complexes is determined by the identity of the catalytic subunit present in each histone methyltransferase complex. Thus, the Set1A and Set1B complexes may exhibit both overlapping and non-redundant properties. Both Set1A and Set1B contain an N-terminal RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain), an N- SET domain, and a C-terminal catalytic SET domain followed by a post-SET domain. In contrast to Set1B, Set1A additionally contains an HCF-1 binding motif that interacts with HCF-1 in vivo.


Pssm-ID: 409745 [Multi-domain]  Cd Length: 93  Bit Score: 34.63  E-value: 9.57e-03
                          10        20        30        40
                  ....*....|....*....|....*....|....*....|....*..
gi 1907083091   2 INLYTDKDTGKPKGEATVSFDDPPSAKAAIDWFDGKEFHGNIIKVSF 48
Cdd:cd12304    32 VKIYFHPKTGKHLGLARVVFDTTKGAKDCVEKLNQTSVMGNIIHVFL 78
 
Blast search parameters
Data Source: Precalculated data, version = cdd.v.3.21
Preset Options:Database: CDSEARCH/cdd   Low complexity filter: no  Composition Based Adjustment: yes   E-value threshold: 0.01

References:

  • Wang J et al. (2023), "The conserved domain database in 2023", Nucleic Acids Res.51(D)384-8.
  • Lu S et al. (2020), "The conserved domain database in 2020", Nucleic Acids Res.48(D)265-8.
  • Marchler-Bauer A et al. (2017), "CDD/SPARCLE: functional classification of proteins via subfamily domain architectures.", Nucleic Acids Res.45(D)200-3.
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