serine/arginine-rich splicing factor 11 isoform X7 [Homo sapiens]
serine/arginine-rich splicing factor 11( domain architecture ID 10189854)
serine/arginine-rich splicing factor 11 (SRSF11) may function in pre-mRNA splicing
List of domain hits
Name | Accession | Description | Interval | E-value | ||
RRM_SRSF11 | cd12518 | RNA recognition motif (RRM) found in serine/arginine-rich splicing factor 11 (SRSF11) and ... |
34-113 | 2.84e-57 | ||
RNA recognition motif (RRM) found in serine/arginine-rich splicing factor 11 (SRSF11) and similar proteins; This subgroup corresponds to the RRM of SRSF11, also termed arginine-rich 54 kDa nuclear protein (SRp54 or p54), which belongs to a family of proteins containing regions rich in serine-arginine dipeptides (SR proteins family). It is involved in bridge-complex formation and splicing by mediating protein-protein interactions across either introns or exons. SRSF11 has been identified as a tau exon 10 splicing repressor. It interacts with a purine-rich element in exon 10, and suppresses exon 10 inclusion by antagonizing Tra2beta, an SR-domain-containing protein that enhances exon 10 inclusion. SRSF11 is a unique SR family member and may regulate the alternative splicing in a tissue- and substrate-dependent manner. It can directly interact with the U2 auxiliary factor 65-kDa subunit (U2AF65), a protein associated with the 3' splice site. In addition, unlike the typical SR proteins, SRSF11 associates with other SR proteins but not with the U1 small nuclear ribonucleoprotein U1-70K or the U2 auxiliary factor 35-kDa subunit (U2AF35). SREK1 has unique properties in regulating alternative splicing of different pre-mRNAs; it promotes the use of the distal 5' splice site in E1A pre-mRNA alternative splicing. It also inhibits cryptic splice site selection on the beta-globin pre-mRNA containing competing 5' splice sites. SREK1 contains an RNA recognition motif (RRM), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), and one serine-arginine (SR)-rich domains (SR domains). : Pssm-ID: 409940 [Multi-domain] Cd Length: 80 Bit Score: 180.23 E-value: 2.84e-57
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Name | Accession | Description | Interval | E-value | |||
RRM_SRSF11 | cd12518 | RNA recognition motif (RRM) found in serine/arginine-rich splicing factor 11 (SRSF11) and ... |
34-113 | 2.84e-57 | |||
RNA recognition motif (RRM) found in serine/arginine-rich splicing factor 11 (SRSF11) and similar proteins; This subgroup corresponds to the RRM of SRSF11, also termed arginine-rich 54 kDa nuclear protein (SRp54 or p54), which belongs to a family of proteins containing regions rich in serine-arginine dipeptides (SR proteins family). It is involved in bridge-complex formation and splicing by mediating protein-protein interactions across either introns or exons. SRSF11 has been identified as a tau exon 10 splicing repressor. It interacts with a purine-rich element in exon 10, and suppresses exon 10 inclusion by antagonizing Tra2beta, an SR-domain-containing protein that enhances exon 10 inclusion. SRSF11 is a unique SR family member and may regulate the alternative splicing in a tissue- and substrate-dependent manner. It can directly interact with the U2 auxiliary factor 65-kDa subunit (U2AF65), a protein associated with the 3' splice site. In addition, unlike the typical SR proteins, SRSF11 associates with other SR proteins but not with the U1 small nuclear ribonucleoprotein U1-70K or the U2 auxiliary factor 35-kDa subunit (U2AF35). SREK1 has unique properties in regulating alternative splicing of different pre-mRNAs; it promotes the use of the distal 5' splice site in E1A pre-mRNA alternative splicing. It also inhibits cryptic splice site selection on the beta-globin pre-mRNA containing competing 5' splice sites. SREK1 contains an RNA recognition motif (RRM), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), and one serine-arginine (SR)-rich domains (SR domains). Pssm-ID: 409940 [Multi-domain] Cd Length: 80 Bit Score: 180.23 E-value: 2.84e-57
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RRM | smart00360 | RNA recognition motif; |
34-107 | 7.38e-09 | |||
RNA recognition motif; Pssm-ID: 214636 [Multi-domain] Cd Length: 73 Bit Score: 51.83 E-value: 7.38e-09
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RRM_1 | pfam00076 | RNA recognition motif. (a.k.a. RRM, RBD, or RNP domain); The RRM motif is probably diagnostic ... |
37-105 | 2.88e-07 | |||
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: 47.23 E-value: 2.88e-07
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PLN03120 | PLN03120 | nucleic acid binding protein; Provisional |
35-126 | 1.93e-05 | |||
nucleic acid binding protein; Provisional Pssm-ID: 215588 Cd Length: 260 Bit Score: 45.42 E-value: 1.93e-05
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Name | Accession | Description | Interval | E-value | |||
RRM_SRSF11 | cd12518 | RNA recognition motif (RRM) found in serine/arginine-rich splicing factor 11 (SRSF11) and ... |
34-113 | 2.84e-57 | |||
RNA recognition motif (RRM) found in serine/arginine-rich splicing factor 11 (SRSF11) and similar proteins; This subgroup corresponds to the RRM of SRSF11, also termed arginine-rich 54 kDa nuclear protein (SRp54 or p54), which belongs to a family of proteins containing regions rich in serine-arginine dipeptides (SR proteins family). It is involved in bridge-complex formation and splicing by mediating protein-protein interactions across either introns or exons. SRSF11 has been identified as a tau exon 10 splicing repressor. It interacts with a purine-rich element in exon 10, and suppresses exon 10 inclusion by antagonizing Tra2beta, an SR-domain-containing protein that enhances exon 10 inclusion. SRSF11 is a unique SR family member and may regulate the alternative splicing in a tissue- and substrate-dependent manner. It can directly interact with the U2 auxiliary factor 65-kDa subunit (U2AF65), a protein associated with the 3' splice site. In addition, unlike the typical SR proteins, SRSF11 associates with other SR proteins but not with the U1 small nuclear ribonucleoprotein U1-70K or the U2 auxiliary factor 35-kDa subunit (U2AF35). SREK1 has unique properties in regulating alternative splicing of different pre-mRNAs; it promotes the use of the distal 5' splice site in E1A pre-mRNA alternative splicing. It also inhibits cryptic splice site selection on the beta-globin pre-mRNA containing competing 5' splice sites. SREK1 contains an RNA recognition motif (RRM), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), and one serine-arginine (SR)-rich domains (SR domains). Pssm-ID: 409940 [Multi-domain] Cd Length: 80 Bit Score: 180.23 E-value: 2.84e-57
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RRM_SRSF11_SREK1 | cd12259 | RNA recognition motif (RRM) found in serine/arginine-rich splicing factor 11 (SRSF11), ... |
34-109 | 1.90e-42 | |||
RNA recognition motif (RRM) found in serine/arginine-rich splicing factor 11 (SRSF11), splicing regulatory glutamine/lysine-rich protein 1 (SREK1) and similar proteins; This subfamily corresponds to the RRM domain of SRSF11 (SRp54 or p54), SREK1 ( SFRS12 or SRrp86) and similar proteins, a group of proteins containing regions rich in serine-arginine dipeptides (SR protein family). These are involved in bridge-complex formation and splicing by mediating protein-protein interactions across either introns or exons. SR proteins have been identified as crucial regulators of alternative splicing. Different SR proteins display different substrate specificity, have distinct functions in alternative splicing of different pre-mRNAs, and can even negatively regulate splicing. All SR family members are characterized by the presence of one or two N-terminal RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), and the C-terminal regions rich in serine and arginine dipeptides (SR domains). The RRM domain is responsible for RNA binding and specificity in both alternative and constitutive splicing. In contrast, SR domains are thought to be protein-protein interaction domains that are often interchangeable. Pssm-ID: 409704 [Multi-domain] Cd Length: 76 Bit Score: 142.07 E-value: 1.90e-42
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RRM1_SREK1 | cd12519 | RNA recognition motif 1 (RRM1) found in splicing regulatory glutamine/lysine-rich protein 1 ... |
34-113 | 3.13e-37 | |||
RNA recognition motif 1 (RRM1) found in splicing regulatory glutamine/lysine-rich protein 1 (SREK1) and similar proteins; This subgroup corresponds to the RRM1 of SREK1, also termed serine/arginine-rich-splicing regulatory protein 86-kDa (SRrp86), or splicing factor arginine/serine-rich 12 (SFRS12), or splicing regulatory protein 508 amino acid (SRrp508). SREK1 belongs to a family of proteins containing regions rich in serine-arginine dipeptides (SR proteins family), and is involved in bridge-complex formation and splicing by mediating protein-protein interactions across either introns or exons. It is a unique SR family member and may play a crucial role in determining tissue specific patterns of alternative splicing. SREK1 can alter splice site selection by both positively and negatively modulating the activity of other SR proteins. For instance, SREK1 can activate SRp20 and repress SC35 in a dose-dependent manner both in vitro and in vivo. In addition, SREK1 generally contains two RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), and two serine-arginine (SR)-rich domains (SR domains) separated by an unusual glutamic acid-lysine (EK) rich region. The RRM and SR domains are highly conserved among other members of the SR superfamily. However, the EK domain is unique to SREK1; plays a modulatory role controlling SR domain function by involvement in the inhibition of both constitutive and alternative splicing and in the selection of splice-site. Pssm-ID: 409941 [Multi-domain] Cd Length: 80 Bit Score: 128.60 E-value: 3.13e-37
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RRM | smart00360 | RNA recognition motif; |
34-107 | 7.38e-09 | |||
RNA recognition motif; Pssm-ID: 214636 [Multi-domain] Cd Length: 73 Bit Score: 51.83 E-value: 7.38e-09
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RRM_SF | cd00590 | RNA recognition motif (RRM) superfamily; RRM, also known as RBD (RNA binding domain) or RNP ... |
35-107 | 1.24e-08 | |||
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: 51.13 E-value: 1.24e-08
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RRM_1 | pfam00076 | RNA recognition motif. (a.k.a. RRM, RBD, or RNP domain); The RRM motif is probably diagnostic ... |
37-105 | 2.88e-07 | |||
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: 47.23 E-value: 2.88e-07
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RRM_Vip1_like | cd12269 | RNA recognition motif (RRM) found in a group of uncharacterized plant proteins similar to ... |
35-108 | 4.31e-07 | |||
RNA recognition motif (RRM) found in a group of uncharacterized plant proteins similar to fission yeast Vip1; This subfamily corresponds to the Vip1-like, uncharacterized proteins found in plants. Although their biological roles remain unclear, these proteins show high sequence similarity to the fission yeast Vip1. Like Vip1 protein, members in this family contain an N-terminal RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain). Pssm-ID: 409712 [Multi-domain] Cd Length: 69 Bit Score: 46.76 E-value: 4.31e-07
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PLN03120 | PLN03120 | nucleic acid binding protein; Provisional |
35-126 | 1.93e-05 | |||
nucleic acid binding protein; Provisional Pssm-ID: 215588 Cd Length: 260 Bit Score: 45.42 E-value: 1.93e-05
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RRM_eIF3G_like | cd12408 | RNA recognition motif (RRM) found in eukaryotic translation initiation factor 3 subunit G ... |
35-92 | 2.39e-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: 42.11 E-value: 2.39e-05
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RRM3_RBM19_RRM2_MRD1 | cd12316 | RNA recognition motif 3 (RRM3) found in RNA-binding protein 19 (RBM19) and RNA recognition ... |
37-105 | 6.17e-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: 6.17e-05
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RRM2_MRD1 | cd12566 | RNA recognition motif 2 (RRM2) found in yeast multiple RNA-binding domain-containing protein 1 ... |
37-109 | 1.69e-04 | |||
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: 39.71 E-value: 1.69e-04
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RRM1_Crp79 | cd21619 | RNA recognition motif 1 (RRM1) found in Schizosaccharomyces pombe mRNA export factor Crp79 and ... |
35-108 | 4.73e-04 | |||
RNA recognition motif 1 (RRM1) found in Schizosaccharomyces pombe mRNA export factor Crp79 and similar proteins; Crp79, also called meiotic expression up-regulated protein 5 (Mug5), or polyadenylate-binding protein crp79, or PABP, or poly(A)-binding protein, is an auxiliary mRNA export factor that binds the poly(A) tail of mRNA and is involved in the export of mRNA from the nucleus to the cytoplasm. 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 first RRM motif. Pssm-ID: 410198 [Multi-domain] Cd Length: 78 Bit Score: 38.28 E-value: 4.73e-04
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RRM2_SREK1 | cd12260 | RNA recognition motif 2 (RRM2) found in splicing regulatory glutamine/lysine-rich protein 1 ... |
35-107 | 6.26e-04 | |||
RNA recognition motif 2 (RRM2) found in splicing regulatory glutamine/lysine-rich protein 1 (SREK1) and similar proteins; This subfamily corresponds to the RRM2 of SREK1, also termed serine/arginine-rich-splicing regulatory protein 86-kDa (SRrp86), or splicing factor arginine/serine-rich 12 (SFRS12), or splicing regulatory protein 508 amino acid (SRrp508). SREK1 belongs to a family of proteins containing regions rich in serine-arginine dipeptides (SR proteins family), which is involved in bridge-complex formation and splicing by mediating protein-protein interactions across either introns or exons. It is a unique SR family member and it may play a crucial role in determining tissue specific patterns of alternative splicing. SREK1 can alter splice site selection by both positively and negatively modulating the activity of other SR proteins. For instance, SREK1 can activate SRp20 and repress SC35 in a dose-dependent manner both in vitro and in vivo. In addition, SREK1 contains two (some contain only one) RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), and two serine-arginine (SR)-rich domains (SR domains) separated by an unusual glutamic acid-lysine (EK) rich region. The RRM and SR domains are highly conserved among other members of the SR superfamily. However, the EK domain is unique to SREK1. It plays a modulatory role controlling SR domain function by involvement in the inhibition of both constitutive and alternative splicing and in the selection of splice-site. Pssm-ID: 409705 [Multi-domain] Cd Length: 85 Bit Score: 38.06 E-value: 6.26e-04
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RRM2_MEI2_EAR1_like | cd12276 | RNA recognition motif 2 (RRM2) found in Mei2-like proteins and terminal EAR1-like proteins; ... |
35-108 | 9.18e-04 | |||
RNA recognition motif 2 (RRM2) found in Mei2-like proteins and terminal EAR1-like proteins; This subfamily corresponds to the RRM2 of Mei2-like proteins from plant and fungi, terminal EAR1-like proteins from plant, and other eukaryotic homologs. Mei2-like proteins represent an ancient eukaryotic RNA-binding proteins family whose corresponding Mei2-like genes appear to have arisen early in eukaryote evolution, been lost from some lineages such as Saccharomyces cerevisiae and metazoans, and diversified in the plant lineage. The plant Mei2-like genes may function in cell fate specification during development, rather than as stimulators of meiosis. In the fission yeast Schizosaccharomyces pombe, the Mei2 protein is an essential component of the switch from mitotic to meiotic growth. S. pombe Mei2 stimulates meiosis in the nucleus upon binding a specific non-coding RNA. The terminal EAR1-like protein 1 and 2 (TEL1 and TEL2) are mainly found in land plants. They may play a role in the regulation of leaf initiation. All members in this family are putative RNA-binding proteins carrying three RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains). In addition to the RRMs, the terminal EAR1-like proteins also contain TEL characteristic motifs that allow sequence and putative functional discrimination between them and Mei2-like proteins. Pssm-ID: 409718 [Multi-domain] Cd Length: 71 Bit Score: 37.23 E-value: 9.18e-04
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RRM1_MRD1 | cd12565 | RNA recognition motif 1 (RRM1) found in yeast multiple RNA-binding domain-containing protein 1 ... |
35-111 | 2.37e-03 | |||
RNA recognition motif 1 (RRM1) found in yeast multiple RNA-binding domain-containing protein 1 (MRD1) and similar proteins; This subgroup corresponds to the RRM1 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). MRD1 is essential for the initial processing at the A0-A2 cleavage sites in the 35 S pre-rRNA. It 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: 409981 [Multi-domain] Cd Length: 76 Bit Score: 36.39 E-value: 2.37e-03
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RRM_Vip1 | cd12268 | RNA recognition motif (RRM) found in fission yeast protein Vip1 and similar proteins; This ... |
35-108 | 2.41e-03 | |||
RNA recognition motif (RRM) found in fission yeast protein Vip1 and similar proteins; This subfamily corresponds to Vip1, an RNA-binding protein encoded by gene vip1 from fission yeast Schizosaccharomyces pombe. Its biological role remains unclear. Vip1 contains an N-terminal RNA recognition motif (RRM), also termed RBD (RNA binding domain) or RNP (ribonucleoprotein domain). Pssm-ID: 240714 [Multi-domain] Cd Length: 68 Bit Score: 35.97 E-value: 2.41e-03
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RBD_RRM1_NPL3 | cd12340 | RNA recognition motif 1 (RRM1) found in yeast nucleolar protein 3 (Npl3p) and similar proteins; ... |
37-92 | 3.17e-03 | |||
RNA recognition motif 1 (RRM1) found in yeast nucleolar protein 3 (Npl3p) and similar proteins; This subfamily corresponds to the RRM1 of Npl3p, also termed mitochondrial targeting suppressor 1 protein, or nuclear polyadenylated RNA-binding protein 1. Npl3p is a major yeast RNA-binding protein that competes with 3'-end processing factors, such as Rna15, for binding to the nascent RNA, protecting the transcript from premature termination and coordinating transcription termination and the packaging of the fully processed transcript for export. It specifically recognizes a class of G/U-rich RNAs. Npl3p is a multi-domain protein containing two central RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), separated by a short linker and a C-terminal domain rich in glycine, arginine and serine residues. Pssm-ID: 409777 [Multi-domain] Cd Length: 69 Bit Score: 35.84 E-value: 3.17e-03
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RRM2_La_like | cd12292 | RNA recognition motif 2 in La autoantigen (La or SS-B or LARP3), La-related protein 7 (LARP7 ... |
34-89 | 3.72e-03 | |||
RNA recognition motif 2 in La autoantigen (La or SS-B or LARP3), La-related protein 7 (LARP7 or PIP7S) and similar proteins; This subfamily corresponds to the RRM2 of La and LARP7. La is a highly abundant nuclear phosphoprotein and well conserved in eukaryotes. It specifically binds the 3'-terminal UUU-OH motif of nascent RNA polymerase III transcripts and protects them from exonucleolytic degradation by 3' exonucleases. In addition, La can directly facilitate the translation and/or metabolism of many UUU-3' OH-lacking cellular and viral mRNAs, through binding internal RNA sequences within the untranslated regions of target mRNAs. LARP7 is an oligopyrimidine-binding protein that binds to the highly conserved 3'-terminal U-rich stretch (3' -UUU-OH) of 7SK RNA. It is a stable component of the 7SK small nuclear ribonucleoprotein (7SK snRNP), intimately associates with all the nuclear 7SK and is required for 7SK stability. LARP7 also acts as a negative transcriptional regulator of cellular and viral polymerase II genes, acting by means of the 7SK snRNP system. LARP7 plays an essential role in the inhibition of positive transcription elongation factor b (P-TEFb)-dependent transcription, which has been linked to the global control of cell growth and tumorigenesis. Both La and LARP7 contain an N-terminal La motif (LAM), followed by two RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains). Pssm-ID: 409734 [Multi-domain] Cd Length: 74 Bit Score: 35.76 E-value: 3.72e-03
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RRM2_CID8_like | cd12460 | RNA recognition motif 2 (RRM2) found in Arabidopsis thaliana CTC-interacting domain protein ... |
35-109 | 4.47e-03 | |||
RNA recognition motif 2 (RRM2) found in Arabidopsis thaliana CTC-interacting domain protein CID8, CID9, CID10, CID11, CID12, CID 13 and similar proteins; This subgroup corresponds to the RRM2 domains found in A. thaliana CID8, CID9, CID10, CID11, CID12, CID 13 and mainly their plant homologs. These highly related RNA-binding proteins contain an N-terminal PAM2 domain (PABP-interacting motif 2), two RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), and a basic region that resembles a bipartite nuclear localization signal. The biological role of this family remains unclear. Pssm-ID: 409893 [Multi-domain] Cd Length: 82 Bit Score: 35.84 E-value: 4.47e-03
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RRM3_TIA1_like | cd12354 | RNA recognition motif 2 (RRM2) found in granule-associated RNA binding proteins (p40-TIA-1 and ... |
37-92 | 5.45e-03 | |||
RNA recognition motif 2 (RRM2) found in granule-associated RNA binding proteins (p40-TIA-1 and TIAR), and yeast nuclear and cytoplasmic polyadenylated RNA-binding protein PUB1; This subfamily corresponds to the RRM3 of TIA-1, TIAR, and PUB1. Nucleolysin TIA-1 isoform p40 (p40-TIA-1 or TIA-1) and nucleolysin TIA-1-related protein (TIAR) are granule-associated RNA binding proteins involved in inducing apoptosis in cytotoxic lymphocyte (CTL) target cells. They share high sequence similarity and are expressed in a wide variety of cell types. TIA-1 can be phosphorylated by a serine/threonine kinase that is activated during Fas-mediated apoptosis.TIAR is mainly localized in the nucleus of hematopoietic and nonhematopoietic cells. It is translocated from the nucleus to the cytoplasm in response to exogenous triggers of apoptosis. Both TIA-1 and TIAR bind specifically to poly(A) but not to poly(C) homopolymers. They are composed of three N-terminal highly homologous RNA recognition motifs (RRMs), also termed RBDs (RNA binding domains) or RNPs (ribonucleoprotein domains), and a glutamine-rich C-terminal auxiliary domain containing a lysosome-targeting motif. TIA-1 and TIAR interact with RNAs containing short stretches of uridylates and their RRM2 can mediate the specific binding to uridylate-rich RNAs. The C-terminal auxiliary domain may be responsible for interacting with other proteins. In addition, TIA-1 and TIAR share a potential serine protease-cleavage site (Phe-Val-Arg) localized at the junction between their RNA binding domains and their C-terminal auxiliary domains. This subfamily also includes a yeast nuclear and cytoplasmic polyadenylated RNA-binding protein PUB1, termed ARS consensus-binding protein ACBP-60, or poly uridylate-binding protein, or poly(U)-binding protein, which has been identified as both a heterogeneous nuclear RNA-binding protein (hnRNP) and a cytoplasmic mRNA-binding protein (mRNP). It may be stably bound to a translationally inactive subpopulation of mRNAs within the cytoplasm. PUB1 is distributed in both, the nucleus and the cytoplasm, and binds to poly(A)+ RNA (mRNA or pre-mRNA). Although it is one of the major cellular proteins cross-linked by UV light to polyadenylated RNAs in vivo, PUB1 is nonessential for cell growth in yeast. PUB1 also binds to T-rich single stranded DNA (ssDNA); however, there is no strong evidence implicating PUB1 in the mechanism of DNA replication. PUB1 contains three RRMs, and a GAR motif (glycine and arginine rich stretch) that is located between RRM2 and RRM3. Pssm-ID: 409790 [Multi-domain] Cd Length: 71 Bit Score: 35.34 E-value: 5.45e-03
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Blast search parameters | ||||
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