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    APOBEC3F apolipoprotein B mRNA editing enzyme catalytic subunit 3F [ Homo sapiens (human) ]

    Gene ID: 200316, updated on 10-Dec-2024

    Summary

    Official Symbol
    APOBEC3Fprovided by HGNC
    Official Full Name
    apolipoprotein B mRNA editing enzyme catalytic subunit 3Fprovided by HGNC
    Primary source
    HGNC:HGNC:17356
    See related
    Ensembl:ENSG00000128394 MIM:608993; AllianceGenome:HGNC:17356
    Gene type
    protein coding
    RefSeq status
    REVIEWED
    Organism
    Homo sapiens
    Lineage
    Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Mammalia; Eutheria; Euarchontoglires; Primates; Haplorrhini; Catarrhini; Hominidae; Homo
    Also known as
    A3F; KA6; ARP8; BK150C2.4.MRNA
    Summary
    This gene is a member of the cytidine deaminase gene family. It is one of seven related genes or pseudogenes found in a cluster, thought to result from gene duplication, on chromosome 22. Members of the cluster encode proteins that are structurally and functionally related to the C to U RNA-editing cytidine deaminase APOBEC1. It is thought that the proteins may be RNA editing enzymes and have roles in growth or cell cycle control. Alternatively spliced transcript variants encoding different isoforms have been identified. [provided by RefSeq, Jul 2008]
    Expression
    Broad expression in lymph node (RPKM 2.8), ovary (RPKM 2.8) and 24 other tissues See more
    Orthologs
    NEW
    Try the new Gene table
    Try the new Transcript table

    Genomic context

    See APOBEC3F in Genome Data Viewer
    Location:
    22q13.1
    Exon count:
    9
    Annotation release Status Assembly Chr Location
    RS_2024_08 current GRCh38.p14 (GCF_000001405.40) 22 NC_000022.11 (39040864..39055972)
    RS_2024_08 current T2T-CHM13v2.0 (GCF_009914755.1) 22 NC_060946.1 (39511283..39526391)
    RS_2024_09 previous assembly GRCh37.p13 (GCF_000001405.25) 22 NC_000022.10 (39436869..39451977)

    Chromosome 22 - NC_000022.11Genomic Context describing neighboring genes Neighboring gene H3K27ac-H3K4me1 hESC enhancers GRCh37_chr22:39409474-39410092 and GRCh37_chr22:39410093-39410710 Neighboring gene apolipoprotein B mRNA editing enzyme catalytic subunit 3C Neighboring gene OCT4-H3K27ac-H3K4me1 hESC enhancer GRCh37_chr22:39415894-39416734 Neighboring gene H3K4me1 hESC enhancer GRCh37_chr22:39417574-39418413 Neighboring gene apolipoprotein B mRNA editing enzyme catalytic subunit 3D Neighboring gene H3K4me1 hESC enhancer GRCh37_chr22:39423978-39424906 Neighboring gene H3K27ac-H3K4me1 hESC enhancer GRCh37_chr22:39426361-39427157 Neighboring gene OCT4-NANOG hESC enhancer GRCh37_chr22:39432783-39433673 Neighboring gene ATAC-STARR-seq lymphoblastoid active region 19027 Neighboring gene H3K27ac-H3K4me1 hESC enhancer GRCh37_chr22:39437791-39438568 Neighboring gene ReSE screen-validated silencer GRCh37_chr22:39439415-39439645 Neighboring gene P300/CBP strongly-dependent group 1 enhancer GRCh37_chr22:39445317-39446516 Neighboring gene ATAC-STARR-seq lymphoblastoid silent region 13739 Neighboring gene H3K27ac-H3K4me1 hESC enhancer GRCh37_chr22:39448525-39449459 Neighboring gene ReSE screen-validated silencer GRCh37_chr22:39458436-39458615 Neighboring gene uncharacterized LOC107985563 Neighboring gene ATAC-STARR-seq lymphoblastoid silent region 13740 Neighboring gene H3K4me1 hESC enhancer GRCh37_chr22:39465577-39466080 Neighboring gene H3K4me1 hESC enhancer GRCh37_chr22:39466081-39466585 Neighboring gene ATAC-STARR-seq lymphoblastoid silent region 13741 Neighboring gene ATAC-STARR-seq lymphoblastoid active region 19028 Neighboring gene ATAC-STARR-seq lymphoblastoid active region 19029 Neighboring gene apolipoprotein B mRNA editing enzyme catalytic subunit 3G Neighboring gene H3K4me1 hESC enhancer GRCh37_chr22:39477470-39477970 Neighboring gene H3K4me1 hESC enhancer GRCh37_chr22:39480765-39481338 Neighboring gene H3K4me1 hESC enhancer GRCh37_chr22:39483746-39484555

    Genomic regions, transcripts, and products

    Expression

    • Project title: HPA RNA-seq normal tissues
    • Description: RNA-seq was performed of tissue samples from 95 human individuals representing 27 different tissues in order to determine tissue-specificity of all protein-coding genes
    • BioProject: PRJEB4337
    • Publication: PMID 24309898
    • Analysis date: Wed Apr 4 07:08:55 2018

    Bibliography

    GeneRIFs: Gene References Into Functions

    What's a GeneRIF?

    HIV-1 interactions

    Replication interactions

    Interaction Pubs
    HIV/tuberculosis coinfection upregulates APOBEC3F expression in pleural fluid mononuclear cells (PFMC) isolated from antiretroviral-naive coinfected patients (relative to patients infected with only tuberculosis) PubMed
    Knockdown of APOBEC3F by siRNA enhances HIV-1 infection of immature dendritic cells (iDCs), indicating that APOBEC3F controls the sensitivity of iDCs to HIV-1 infection PubMed

    Protein interactions

    Protein Gene Interaction Pubs
    Envelope surface glycoprotein gp120 env HIV-1 Env gp120 variable loop 3 (V3) region mutation is increased by incomplete Vif neutralization (Vif K22E) of APOBEC3G/F activity and may contribute to genetic evolution from CCR5 to CXCR4 co-receptor usage PubMed
    Pol gag-pol Analyses of longitudinal HIV-1 pol sequences from patients without hypermutated viruses during chronic infection indicate that A3F may increase HIV-1 diversification and facilitate viral adaption and propagation in vivo PubMed
    Pr55(Gag) gag R7R10K11S, A30P, P31L, R32G, and RKK32-34SSS mutations in the NC domain of HIV-1 Gag result in a significant decrease in APOBEC3F incorporation into virus-like particles PubMed
    gag Amino acids 104-156, located between the two cytidine deaminase domains of APOBEC3F, are required for its incorporation into Gag virus-like particles PubMed
    gag The NC domain of HIV-1 Gag is required for 7SL RNA and APOBEC3F packaging PubMed
    gag APOBEC3F may be incorporated into virions by HIV-1 Gag polyprotein PubMed
    gag Single-virion fluorescence microscopy analysis demonstrates that the efficiency of A3G-YFP and A3F-YFP incorporation into HIV-1 Gag-CeFP virions is higher than that of A3C-YFP incorporation into HIV-1 Gag-CeFP virions PubMed
    gag The efficiency of incorporation of Mov10, A3G, and A3F into viral particles, which contains both HIV-1 Gag and genomic RNA, is much higher than that of the other P-body proteins AGO2, DCP1a, DCP2, and DDX6 PubMed
    gag In HIV-1 virions, APOBEC3F interacts with HIV-1 IN and NC, which are known to be important for reverse transcription and integration PubMed
    Vif vif HIV-1 Vif binds APOBEC3F; the interaction is between amino acid residue R15 in Vif and E289 in APOBEC3F PubMed
    vif HIV-1 Vif degrades APOBEC3F; degradation is dependent on interactions between amino acid residue R15 in Vif and E289 in APOBEC3F PubMed
    vif HIV-1 Vif degrades APOBEC3F dependent upon L291, A292, R293, and E324 in APOBEC3F PubMed
    vif HIV-1 Vif binds amino acids L291, A292 and R293 in APOBEC3F PubMed
    vif HIV-1 Vif degrades APOBEC3C and APOBEC3F and is dependent on Vif F1, F2, and F3 box mutations involving residues D14, R15, M16, W79, D172, and W174 PubMed
    vif HIV-1 Vif degrades APOBEC3F and APOBEC3C PubMed
    vif HIV-1 Vif internal amino acid salt bridge (E171-K167-D101) mediates human APOBEC3C and APOBEC3F degradation PubMed
    vif HIV-1 Vif specifically binds APOBEC3F, and Vif suppresses both the inhibition of virus infectivity caused by APOBEC3F and virion incorporation of APOBEC3F PubMed
    vif APOBEC3F levels are increased by compound N.41 treatment only in cells co-expressing HIV-1 Vif, and APOBEC3F levels in virus particles are also increased PubMed
    vif APOBEC3F, similar to APOBEC3G, induces G to A hypermutations in HIV-1 genomic DNA, and the HIV-1 Vif protein inhibits this activity PubMed
    vif Certain residues L125, G126, R127, E134, Y135, G138 in HCCH motif (residues 125-141) of HIV-1 Vif are required for inhibition of APOBEC3F PubMed
    vif Immunoblotting and crystal structure analyses reveal ten amino acids L225, F258, C259, I262, L263, S264, Y269, D289, F290, and H294 in APOBEC3F are involved in forming Vif-interaction interface PubMed
    vif A potent small molecular compound VEC-5 protects APOBEC3G, APOBEC3F, and APOBEC3C from HIV-1 Vif-induced degradation and enhances A3G incorporation into HIV-1 virions by inhibiting the interaction between Vif and elongin C PubMed
    vif HIV-1 Vif W21A, S32A, W38A, Y69A, E76A, W79A, H108A, C114S, C133S, and H139A mutants have no viral ability to neutralize APOBEC3F PubMed
    vif An extensive mutational analysis of HIV-1 Vif reveals that two distinct regions of Vif, amino acids Y(40)RHHY(44) and D(14)RMR(17), which are essential for binding to A3G and A3F, respectively PubMed
    vif CBF-beta-mediated increase of HIV-1 Vif steady-state levels results in decreased cellular levels of all Vif-sensitive APOBEC proteins (A3C, A3D, A3F, A3G, and A3H haplotype II) PubMed
    vif Endogenous APOBEC3 proteins, particularly APOBEC3D, APOBEC3F, and APOBEC3G, can potently inhibit HIV-1 propagation in a mouse model by mutating 14DRMR17 and/or 40YRHHY44 motifs in Vif PubMed
    vif Amino acids P281, E282, D313, E316, Q323, and E324 in APOBEC3F are required for the interface binding to HIV-1 Vif(IIIB) PubMed
    vif HIV-1 Vif mutants 84DVAAAA89, 88EW/AA89, G84A, G84D, W89A, D104A, L106S, and I107S result in upregulated APOBEC3F expression and show a reduced ability to neutralize the antiviral activity of APOBEC3F PubMed
    vif HIV-1 Vif mutant E88A/W89A fails to bind to CBF-beta, which impairs Vif-mediated degradation of both A3F and A3G proteins and HIV-1 replication in non-permissive CEM cells PubMed
    vif A novel conserved 69YXXL72 motif in HIV-1 Vif mediates binding to human A3F and its subsequent degradation. Tyr69 and Leu72 residues in the YXXL motif are important for degradation of A3F PubMed
    vif HIV-1 Vif, which suppresses both APOBEC3G and APOBEC3F antiviral function by inducing their degradation, may selectively remove these proteins from, and/or restrict their localization to, P-bodies PubMed
    vif HIV-1 Vif mutants W11R and R15G are restricted in permissive SupT11 and nonpermissive CEM2n cell lines that express A3F, while H43N and H43N/E117K Vif mutants are capable of spreading efficiently in the presence of A3F PubMed
    vif HIV-1 Vif mutants W5S, W21S, W38S, W89S, F112S, and F115S have a reduced ability to interact with CBF-beta and these Vif hydrophobic residues are important for Vif-mediated degradation of A3F PubMed
    vif The crystal structure provides a structural basis that L255A, L255D, F258A, C259K, C259S, I262A, Y269A, E286A, E289Q, F290A, F290K, H294A, H294D, E316Q, S320A, and E324Q mutations fail to bind to HIV-1 Vif PubMed
    vif The HIV-1 Vif N-terminal motif (residues 18-38) binds CUL5 in mammalian cells and is reguired for A3F and A3G degradation and HIV-1 infectivity PubMed
    vif Replacement of all lysines with arginines in A3F results in inhibition of HIV-1 Vif-mediated A3F degradation by polyubiquitination. Lysines at positions 40, 52, 209, 334, 337, 355, and 358 in A3F are important for its degradation by Vif PubMed
    vif A3F mutants C259K and IL262-263AA are resistant to HIV-1 Vif-mediated A3F degradation PubMed
    vif The amino acids 223-232 of A3F-CTD beta1-2 loop is conserved to the amino acids 23-32 of HIV-1 Vif, while the amino acids 305-313 of A3F-CTD beta4-alpha4 loop is conserved to the amino acids 108-113 of HIV-1 Vif PubMed
    vif Unusual substitutions V13I, V55T, and L81M in HIV-1 Vif from children infected perinatally without progression to AIDS are located in three distinct Vif motifs important for the interaction with A3G/A3F PubMed
    vif The antiviral activity of A3G to HIV-1 vif mutants NL4-3 40YRHHY44>A5 and NL4-3 14DRMR17>A4 with G-to-A hypermutations confers a greater restriction than the combined antiviral activity of A3F and A3DE in activated CD4+ T cells and macrophages PubMed
    vif HIV-1 Vif alleles from seven HIV-1 subtypes show their abilities to degrade and counteract A3F efficiently PubMed
    vif Highly conserved Tryptophan residues in the N-terminal region of HIV-1 Vif are required for the suppression of both APOBEC3G and APOBEC3F PubMed
    vif HIV-1 Vif motif TGERxW (amino acids 74-79) is important for A3F interaction and inhibition PubMed
    vif Stress causes A3A, A3B, A3C, and A3F to co-localize efficiently with Vif(IIIB) and mRNA-PABP1 complexes in stress granules PubMed
    vif Vif-deficient HIV-1 replicates as equally well as wild-type virus in CEM-T4 cells expressing high levels of A3G and A3F, indicating CEM-T4 cells lack a cellular co-factor for these endogenous antiretroviral proteins PubMed
    vif Small molecule RN-18 specifically inhibits HIV-1 Vif-mediated downregulation of APOBEC3C/F/G proteins by decreasing Vif protein levels when Vif interacts with these proteins PubMed
    vif Amino acids 283 to 300 of A3F are critical for binding to the DRMR region of HIV-1 Vif and for A3F degradation PubMed
    vif The SLV portion of the Vif SLV/Ix4Yx9Y motif is required for optimal suppression of A3F PubMed
    vif The carboxyl-terminal domain (residues 183-373) of A3F alone binds to HIV-1 Vif and behaves like the full-length A3F in terms of Vif sensitivity PubMed
    vif Human T cell line CEM.NKR clones display inhibition of HIV-1 replication although these clones retain low levels of A3DE, A3F, A3G, and A3H expression, suggesting that a novel restriction factor distinct from APOBEC3s exists in CEM.NKR cells PubMed
    vif Incorporation of Vif into virions is dependent on its interaction with A3G/A3F PubMed
    vif Long-term restriction by A3F selects HIV-1 clones with Vif Q26-Q27 or Y26-Q27 mutations, which are fully capable of overcoming A3F but susceptible to restriction by A3G PubMed
    vif Alternative splice removal of exon 2 of A3F produces a Vif-resistant protein that retains significant antiviral activity. Splice removal of exons 2-4 results in a Vif-sensitive A3F protein with weaker antiviral activity PubMed
    vif The T(Q/D/E)x(5)ADx(2)(I/L) motif, located at residues 96 to 107 in HIV-1 Vif, plays a critical role in neutralizing activity toward A3F. This motif regulates Vif interaction with Cul5 PubMed
    vif All residues except N175 in the (171)EDRWN(175) domain of Vif are equally important for regulation of A3F neutralization PubMed
    vif Residues L81, G82, and G84, and, to a lesser extent, I87 and W89 within the (81)LGxGxxIxW(89) domain affect Vif binding to A3F and play very critical roles in A3F neutralizing activity PubMed
    vif Amino-acid residues QE323-324EK in A3F affect the differential susceptibility of human A3F and monkey A3F to HIV-1 Vif. Mutation of A3F E324 alone alters functional susceptibility of its binding to Vif PubMed
    vif Amino acid E289 in the EFLARH sequence of A3F is critical for HIV-1 Vif sensitivity PubMed
    Vpu vpu The expression of APOBEC3F is enhanced in Vpu-deficient HIV-1-infected cells as compared to that in wild-type-infected cells PubMed
    capsid gag HIV-1 CA mutations (K203A and E128A/R132A) that alter HIV-1 core stability decrease nuclear import of A3F-YFP-labeled preintegration complexes (PICs) in infected cells PubMed
    integrase gag-pol In HIV-1 virions, APOBEC3F interacts with HIV-1 IN and NC, which are known to be important for reverse transcription and integration PubMed
    nucleocapsid gag The NC domain of HIV-1 Gag is required for 7SL RNA and APOBEC3F packaging PubMed
    gag In HIV-1 virions, APOBEC3F interacts with HIV-1 IN and NC, which are known to be important for reverse transcription and integration PubMed
    reverse transcriptase gag-pol Vif-negative HIV-1 produced from 293T cells transiently expressing hA3F is impaired in early and late viral DNA production, and in viral infectivity, effects that are correlated with an inability of tRNA(3)(Lys) to prime reverse transcription PubMed
    gag-pol APOBEC3-driven mutagenesis contributes to the generation of both M184I and E138K mutations in HIV-1 RT in the absence of drug exposure PubMed

    Go to the HIV-1, Human Interaction Database

    Interactions

    Products Interactant Other Gene Complex Source Pubs Description

    General gene information

    Markers

    Clone Names

    • MGC74891

    Gene Ontology Provided by GOA

    Function Evidence Code Pubs
    enables RNA binding HDA PubMed 
    enables RNA binding IBA
    Inferred from Biological aspect of Ancestor
    more info
     
    enables RNA binding IDA
    Inferred from Direct Assay
    more info
    PubMed 
    enables cytidine deaminase activity IBA
    Inferred from Biological aspect of Ancestor
    more info
     
    enables cytidine deaminase activity IDA
    Inferred from Direct Assay
    more info
    PubMed 
    enables identical protein binding IPI
    Inferred from Physical Interaction
    more info
    PubMed 
    enables protein binding IPI
    Inferred from Physical Interaction
    more info
    PubMed 
    enables zinc ion binding IDA
    Inferred from Direct Assay
    more info
    PubMed 
    Process Evidence Code Pubs
    involved_in DNA cytosine deamination IBA
    Inferred from Biological aspect of Ancestor
    more info
     
    involved_in DNA cytosine deamination IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in base conversion or substitution editing IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in clearance of foreign intracellular DNA IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in cytidine to uridine editing IBA
    Inferred from Biological aspect of Ancestor
    more info
     
    involved_in defense response to virus IBA
    Inferred from Biological aspect of Ancestor
    more info
     
    involved_in defense response to virus IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in innate immune response IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in negative regulation of single stranded viral RNA replication via double stranded DNA intermediate IBA
    Inferred from Biological aspect of Ancestor
    more info
     
    involved_in negative regulation of single stranded viral RNA replication via double stranded DNA intermediate IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in negative regulation of viral genome replication IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in negative regulation of viral process IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in positive regulation of defense response to virus by host IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in positive regulation of gene expression via chromosomal CpG island demethylation IDA
    Inferred from Direct Assay
    more info
    PubMed 
    involved_in transposable element silencing IDA
    Inferred from Direct Assay
    more info
    PubMed 
    Component Evidence Code Pubs
    is_active_in P-body IBA
    Inferred from Biological aspect of Ancestor
    more info
     
    located_in P-body IDA
    Inferred from Direct Assay
    more info
    PubMed 
    part_of apolipoprotein B mRNA editing enzyme complex TAS
    Traceable Author Statement
    more info
    PubMed 
    is_active_in cytoplasm IBA
    Inferred from Biological aspect of Ancestor
    more info
     
    located_in cytoplasm IDA
    Inferred from Direct Assay
    more info
    PubMed 
    is_active_in nucleus IBA
    Inferred from Biological aspect of Ancestor
    more info
     
    part_of ribonucleoprotein complex IDA
    Inferred from Direct Assay
    more info
    PubMed 

    General protein information

    Preferred Names
    DNA dC->dU-editing enzyme APOBEC-3F
    Names
    apolipoprotein B editing enzyme catalytic polypeptide-like 3F
    apolipoprotein B mRNA editing enzyme cytidine deaminase
    apolipoprotein B mRNA-editing enzyme catalytic polypeptide-like 3F
    induced upon T-cell activation
    NP_001006667.1
    NP_660341.2
    XP_016884131.1
    XP_047297140.1
    XP_047297141.1
    XP_054181200.1
    XP_054181201.1
    XP_054181202.1

    NCBI Reference Sequences (RefSeq)

    NEW Try the new Transcript table

    RefSeqs maintained independently of Annotated Genomes

    These reference sequences exist independently of genome builds. Explain

    These reference sequences are curated independently of the genome annotation cycle, so their versions may not match the RefSeq versions in the current genome build. Identify version mismatches by comparing the version of the RefSeq in this section to the one reported in Genomic regions, transcripts, and products above.

    mRNA and Protein(s)

    1. NM_001006666.2NP_001006667.1  DNA dC->dU-editing enzyme APOBEC-3F isoform b

      See identical proteins and their annotated locations for NP_001006667.1

      Status: REVIEWED

      Description
      Transcript Variant: This variant (2) contains a distinct 3' UTR and 3' coding region, compared to variant 1. The resulting isoform (b) is shorter and has a distinct C-terminus when compared to isoform a.
      Source sequence(s)
      BM681311, CR456395
      Consensus CDS
      CCDS33649.1
      UniProtKB/Swiss-Prot
      Q8IUX4
      Related
      ENSP00000370977.2, ENST00000381565.2
      Conserved Domains (1) summary
      pfam08210
      Location:1788
      APOBEC_N; APOBEC-like N-terminal domain
    2. NM_145298.6NP_660341.2  DNA dC->dU-editing enzyme APOBEC-3F isoform a

      See identical proteins and their annotated locations for NP_660341.2

      Status: REVIEWED

      Description
      Transcript Variant: This variant (1) represents the longer transcript, and encodes the longer isoform (a).
      Source sequence(s)
      AL022318, BC038808, BQ182066, CX165430, DA221480
      Consensus CDS
      CCDS33648.1
      UniProtKB/Swiss-Prot
      B0QYD4, Q45F03, Q6ICH3, Q8IUX4
      UniProtKB/TrEMBL
      M4VR43
      Related
      ENSP00000309749.5, ENST00000308521.10
      Conserved Domains (2) summary
      pfam18772
      Location:195373
      APOBEC2
      pfam18782
      Location:10188
      NAD2; Novel AID APOBEC clade 2

    RefSeqs of Annotated Genomes: GCF_000001405.40-RS_2024_08

    The following sections contain reference sequences that belong to a specific genome build. Explain

    Reference GRCh38.p14 Primary Assembly

    Genomic

    1. NC_000022.11 Reference GRCh38.p14 Primary Assembly

      Range
      39040864..39055972
      Download
      GenBank, FASTA, Sequence Viewer (Graphics)

    mRNA and Protein(s)

    1. XM_047441184.1XP_047297140.1  DNA dC->dU-editing enzyme APOBEC-3F isoform X1

      UniProtKB/TrEMBL
      M4VR43
    2. XM_047441185.1XP_047297141.1  DNA dC->dU-editing enzyme APOBEC-3F isoform X2

    3. XM_017028642.3XP_016884131.1  DNA dC->dU-editing enzyme APOBEC-3F isoform X3

      UniProtKB/TrEMBL
      B4DGW8

    Alternate T2T-CHM13v2.0

    Genomic

    1. NC_060946.1 Alternate T2T-CHM13v2.0

      Range
      39511283..39526391
      Download
      GenBank, FASTA, Sequence Viewer (Graphics)

    mRNA and Protein(s)

    1. XM_054325225.1XP_054181200.1  DNA dC->dU-editing enzyme APOBEC-3F isoform X1

      UniProtKB/TrEMBL
      M4VR43
    2. XM_054325226.1XP_054181201.1  DNA dC->dU-editing enzyme APOBEC-3F isoform X2

    3. XM_054325227.1XP_054181202.1  DNA dC->dU-editing enzyme APOBEC-3F isoform X3

      UniProtKB/TrEMBL
      B4DGW8