Related references
Note: Only part of the references are listed.Estrogen directly activates AID transcription and function
Siim Pauklin et al.
JOURNAL OF EXPERIMENTAL MEDICINE (2009)
Guidelines for Naming Nonprimate APOBEC3 Genes and Proteins
Rebecca S. LaRue et al.
JOURNAL OF VIROLOGY (2009)
The APOBEC3 cytidine deaminases: An innate defensive network opposing exogenous retroviruses and endogenous retroelements
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ANNUAL REVIEW OF IMMUNOLOGY (2008)
The artiodactyl APOBEC3 innate immune repertoire shows evidence for a multi-functional domain organization that existed in the ancestor of placental mammals
Rebecca S. Larue et al.
BMC MOLECULAR BIOLOGY (2008)
AID Is Required for the Chromosomal Breaks in c-myc that Lead to c-myc/IgH Translocations
Davide F. Robbiani et al.
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MicroRNA-155 is a negative regulator of activation-induced cytidine deaminase
Grace Teng et al.
IMMUNITY (2008)
MicroRNA-155 suppresses activation-induced cytidine deaminase-mediated Myc-Igh translocation
Yair Dorsett et al.
IMMUNITY (2008)
AID expression levels determine the extent of cMyc oncogenic translocations and the incidence of B cell tumor development
Makiko Takizawa et al.
JOURNAL OF EXPERIMENTAL MEDICINE (2008)
Regulation of class switch recombination and somatic mutation by AID phosphorylation
Kevin M. McBride et al.
JOURNAL OF EXPERIMENTAL MEDICINE (2008)
miR-181b negatively regulates activation-induced cytidine deaminase in B cells
Virginia G. de Yebenes et al.
JOURNAL OF EXPERIMENTAL MEDICINE (2008)
Two regions within the amino-terminal half of APOBEC3G cooperate to determine cytoplasmic localization
Mark D. Stenglein et al.
JOURNAL OF VIROLOGY (2008)
Interaction between anti body-diversification enzyme AID and spliceosome-associated factor CTNNBL1
Silvestro G. Conticello et al.
MOLECULAR CELL (2008)
Crystal structure of the anti-viral APOBEC3G catalytic domain and functional implications
Lauren G. Holden et al.
NATURE (2008)
Structure of the DNA deaminase domain of the HIV-1 restriction factor APOBEC3G
Kuan-Ming Chen et al.
NATURE (2008)
Haploinsufficiency of Activation-Induced Deaminase for Antibody Diversification and Chromosome Translocations both In Vitro and In Vivo
Isora V. Sernandez et al.
PLOS ONE (2008)
Nuclear exclusion of the HIV-1 host defense factor APOBEC3G requires a novel cytoplasmic retention signal and is not dependent on RNA binding
Ryan P. Bennett et al.
JOURNAL OF BIOLOGICAL CHEMISTRY (2008)
Protein evolution by hypermutation and selection in the B cell line DT40
Hiroshi Arakawa et al.
NUCLEIC ACIDS RESEARCH (2008)
Dependence of antibody gene diversification on uracil excision
Javier M. Di Noia et al.
JOURNAL OF EXPERIMENTAL MEDICINE (2007)
AID associates with single-stranded DNA with high affinity and a long complex half-life in a sequence-independent manner
Mani Larijani et al.
MOLECULAR AND CELLULAR BIOLOGY (2007)
APOBEC-1 and AID are nucleo-cytoplasmic trafficking proteins but APOBEC3G cannot traffic
Ryan P. Bennett et al.
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS (2006)
APOBEC3A is a potent inhibitor of adeno-associated virus and retrotransposons
H Chen et al.
CURRENT BIOLOGY (2006)
Role of genomic instability and p53 in AID-induced c-myc-Igh translocations
AR Ramiro et al.
NATURE (2006)
Activation-induced deaminase: light and dark sides
Virginia G. de Yebenes et al.
TRENDS IN MOLECULAR MEDICINE (2006)
The AID antibody diversification enzyme is regulated by protein kinase A phosphorylation
U Basu et al.
NATURE (2005)
Evolution of the AID/APOBEC family of polynucleotide (deoxy)cytidine deaminases
SG Conticello et al.
MOLECULAR BIOLOGY AND EVOLUTION (2005)
Replication protein A interacts with AID to promote deamination of somatic hypermutation targets
J Chaudhuri et al.
NATURE (2004)
Biochemical analysis of hypermutational targeting by wild type and mutant activation-induced cytidine deaminase
R Bransteitter et al.
JOURNAL OF BIOLOGICAL CHEMISTRY (2004)
Activation-induced cytidine deaminase initiates immunoglobulin gene conversion and hypermutation by a common intermediate
H Arakawa et al.
PLOS BIOLOGY (2004)
Evolution of new nonantibody proteins via iterative somatic hypermutation
L Wang et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2004)
AID mutant analyses indicate requirement for class-switch-specific cofactors
VT Ta et al.
NATURE IMMUNOLOGY (2003)
C-terminal deletion of AID uncouples class switch recombination from somatic hypermutation and gene conversion
V Barreto et al.
MOLECULAR CELL (2003)
Constitutive expression of AID leads to tumorigenesis
I Okazaki et al.
JOURNAL OF EXPERIMENTAL MEDICINE (2003)
Estimating hypermutation rates from clonal tree data
SH Kleinstein et al.
JOURNAL OF IMMUNOLOGY (2003)
Generation and iterative affinity maturation of antibodies in vitro using hypermutating B-cell lines
SJ Cumbers et al.
NATURE BIOTECHNOLOGY (2002)
AID mutates E-coli suggesting a DNA deamination mechanism for antibody diversification
SK Petersen-Mahrt et al.
NATURE (2002)
Ablation of XRCC2/3 transforms immunoglobulin V gene conversion into somatic hypermutation
JE Sale et al.
NATURE (2001)