HistCite - main: Hot Paper: Dickerson et al., J Exp Med 197:1291, 2003

Fri Dec 2 09:55:39 2005

AID mediates hypermutation by deaminating single stranded DNA
DICKERSON SK, MARKET E, BESMER E, PAPAVASILIOU EN
JOURNAL OF EXPERIMENTAL MEDICINE 197: 1291-1296 2003
and the citing papers

Nodes: 105, Authors: 298, Journals: 42, Outer References: 2536, Words: 438
Collection span: 2003 - 2005
View: Overview. Sorted by year, source, volume, issue, page. Page 1 of 2: [ 1 2 ]

# LCR NCR Node / Date / Journal / Author LCS GCS
1 3 65 1 2003 DNA REPAIR 2 (11): 1163-1174
Yu KF; Lieber MR
Nucleic acid structures and enzymes in the immunoglobulin class switch recombination mechanism
7 12
2 4 51 2 2003 EMBO JOURNAL 22 (21): 5893-5903
Schrader CE; Bradley SP; Vardo J; Mochegova SN; Flanagan E; et al.
Mutations occur in the Ig S mu region but rarely in S gamma regions prior to class switch recombination
12 16
3 1 39 3 2003 IMMUNITY 19 (2): 235-242
Michael N; Shen HM; Longerich S; Kim N; Longacre A; et al.
The E box motif CAGGTG enhances somatic hypermutation without enhancing transcription
5 15
4 2 52 4 2003 IMMUNITY 19 (4): 515-524
Min IM; Schrader CE; Vardo J; Luby TM; D'Avirro N; et al.
The S mu tandem repeat region is critical for Ig isotype switching in the absence of Msh2
8 11
5 1 21 5 2003 JOURNAL OF CLINICAL INVESTIGATION 112 (1): 19-22
Manis JP; Alt FW
Novel antibody switching defects in human patients
2 3
6 0 21 6 2003 JOURNAL OF EXPERIMENTAL MEDICINE 197 (10): 1291-1296
Dickerson SK; Market E; Besmer E; Papavasiliou EN
AID mediates hypermutation by deaminating single stranded DNA
104 104
7 1 89 7 2003 JOURNAL OF EXPERIMENTAL MEDICINE 197 (12): 1767-1778
Reina-San-Martin B; Difilippantonio S; Hanitsch L; Masilamani RF; Nussenzweig A; et al.
H2AX is required for recombination between immunoglobulin switch regions but not for intra-switch region recombination or somatic hypermutation
27 57
8 1 50 8 2003 JOURNAL OF EXPERIMENTAL MEDICINE 198 (8): 1171-1178
Martin A; Li ZQ; Lin DP; Bardwell PD; Iglesias-Ussel MD; et al.
Msh2 ATPase activity is essential for somatic hypermutation at A-T basepairs and for efficient class switch recombination
19 25
9 3 45 9 2003 MOLECULAR CELL 12 (2): 501-508
Barreto V; Reina-San-Martin B; Ramiro AR; McBride KM; Nussenzweig MC
C-terminal deletion of AID uncouples class switch recombination from somatic hypermutation and gene conversion
25 42
10 1 27 10 2003 NATURE 424 (6944): 103-107
Pham P; Bransteitter R; Petruska J; Goodman MF
Processive AID-catalysed cytosine deamination on single-stranded DNA simulates somatic hypermutation
67 100
# LCR NCR Node / Date / Journal / Author LCS GCS
11 1 29 11 2003 NATURE IMMUNOLOGY 4 (7): 641-643
Harris RS; Sheehy AM; Craig HM; Malim MH; Neuberger MS
DNA deamination: not just a trigger for antibody diversification but also a mechanism for defense against retroviruses
5 17
12 2 47 12 2003 NATURE IMMUNOLOGY 4 (9): 843-848
Ta VT; Nagaoka H; Catalan N; Durandy A; Fischer A; et al.
AID mutant analyses indicate requirement for class-switch-specific cofactors
36 68
13 1 17 13 2003 ONCOGENE 22 (35): 5379-5380
Gearhart PJ
B cells pay a price
0 2
14 3 33 14 2003 PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 100 (22): 12895-12898
Eto T; Kinoshita K; Yoshikawa K; Muramatsu M; Honjo T
RNA-editing cytidine deaminase Apobec-1 is unable to induce somatic hypermutation in mammalian cells
7 10
15 1 224 15 2004 ADVANCES IN IMMUNOLOGY, VOL 82 82: 295-330
Durandy A; Revy P; Fischer A
Human models of inherited immunoglobulin class switch recombination and somatic hypermutation defects (hyper-IgM syndromes)
1 4
16 2 59 16 2004 BLOOD 103 (10): 3828-3836
Khamlichi AA; Glaudet F; Oruc Z; Denis V; Le Bert M; et al.
Immunoglobulin class-switch recombination in mice devoid of any S mu tandem repeat
3 6
17 4 52 17 2004 BLOOD 104 (10): 3318-3325
Pasqualucci L; Guglielmino R; Houldsworth J; Mohr J; Aoufouchi S; et al.
Expression of the AID protein in normal and neoplastic B cells
2 9
18 3 21 18 2004 CURRENT OPINION IN IMMUNOLOGY 16 (2): 163-166
Berg LJ; Nussenzweig M
Lymphocyte development - Signals that regulate lymphocyte development and differentiation - Editorial overview
0 0
19 3 43 19 2004 CURRENT OPINION IN IMMUNOLOGY 16 (2): 241-245
Besmer E; Gourzi P; Papavasiliou FN
The regulation of somatic hypermutation
3 9
20 2 29 20 2004 DNA REPAIR 3 (1): 85-89
Bhagwat AS
DNA-cytosine deaminases: from antibody maturation to antiviral defense
4 4
# LCR NCR Node / Date / Journal / Author LCS GCS
21 5 33 21 2004 DNA REPAIR 3 (7): 687-692
Steele EJ
DNA polymerase-eta as a reverse transcriplase: implications for mechanisms of hypermutation in innate anti-retroviral defences and antibody SHM systems
1 2
22 1 93 22 2004 DNA REPAIR 3 (7): 693-702
Sale JE
Immunoglobulin diversification in DT40: a model for vertebrate DNA damage tolerance
1 3
23 8 131 23 2004 DNA REPAIR AND REPLICATION 69: 307-335
Tippin B; Pham P; Bransteitter R; Goodman MF
Somatic hypermutation: A mutational panacea
0 0
24 2 26 24 2004 EUROPEAN JOURNAL OF IMMUNOLOGY 34 (3): 844-849
Fugmann SD; Rush JS; Schatz DG
Non-redundancy of cytidine deaminases in class switch recombination
4 5
25 6 87 25 2004 GENES & DEVELOPMENT 18 (1): 1-11
Li ZQ; Woo CJ; Iglesias-Ussel MD; Ronai D; Scharff MD
The generation of antibody diversity through somatic hypermutation and class switch recombination
10 31
26 10 81 26 2004 IMMUNITY 20 (6): 659-668
Honjo T; Muramatsu M; Fagarasan S
AID: How does it aid antibody diversity?
14 39
27 2 243 27 2004 IMMUNOLOGICAL REVIEWS 200: 115-131
Rooney S; Chaudhuri J; Alt FW
The role of the non-homologous end-joining pathway in lymphocyte development
4 9
28 4 30 28 2004 IMMUNOLOGY AND CELL BIOLOGY 82 (2): 205-208
Blanden RV; Franklin A; Steele EJ
The boundaries of the distribution of somatic hypermutation of rearranged immunoglobulin variable genes
3 3
29 3 67 29 2004 IMMUNOLOGY AND CELL BIOLOGY 82 (2): 209-218
Steele EJ; Franklin A; Blanden RV
Genesis of the strand-biased signature in somatic hypermutation of rearranged immunoglobulin variable genes
5 8
30 2 68 30 2004 IMMUNOLOGY AND CELL BIOLOGY 82 (2): 219-225
Franklin A; Milburn PJ; Blanden RV; Steele EJ
Human DNA polymerase-eta, an A-T mutator in somatic hypermutation of rearranged immunoglobulin genes, is a reverse transcriptase
4 7
# LCR NCR Node / Date / Journal / Author LCS GCS
31 9 108 31 2004 IMMUNOLOGY AND CELL BIOLOGY 82 (6): 557-567
Franklin A; Blanden RV
On the molecular mechanism of somatic hypermutation of rearranged immunoglobulin genes
1 1
32 1 27 32 2004 INTERNATIONAL IMMUNOLOGY 16 (4): 549-557
Rush JS; Fugmann SD; Schatz DG
Staggered AID-dependent DNA double strand breaks are the predominant DNA lesions targeted to S mu in Ig class switch recombination
11 19
33 10 94 33 2004 JOURNAL OF ALLERGY AND CLINICAL IMMUNOLOGY 114 (4): 726-735
Luo ZH; Ronai D; Scharff MD
The role of activation-induced cytidine deaminase in antibody diversification, immunodeficiency, and B-cell malignancies
1 2
34 2 32 34 2004 JOURNAL OF BIOLOGICAL CHEMISTRY 279 (8): 6496-6500
Yu KF; Huang FT; Lieber AR
DNA substrate length and surrounding sequence affect the activation-induced deaminase activity at cytidine
25 31
35 10 60 35 2004 JOURNAL OF BIOLOGICAL CHEMISTRY 279 (25): 26395-26401
Brar SS; Watson M; Diaz M
Activation-induced cytosine deaminase (AID) is actively exported out of the nucleus but retained by the induction of DNA breaks
8 12
36 14 41 36 2004 JOURNAL OF BIOLOGICAL CHEMISTRY 279 (49): 51612-51621
Bransteitter R; Pham P; Calabrese P; Goodman MF
Biochemical analysis of hypermutational targeting by wild type and mutant activation-induced cytidine deaminase
3 6
37 2 38 37 2004 JOURNAL OF CELL BIOLOGY 165 (4): 459-464
Ward IM; Reina-San-Martin B; Olaru A; Minn K; Tamada K; et al.
53BP1 is required for class switch recombination
5 14
38 5 67 38 2004 JOURNAL OF EXPERIMENTAL MEDICINE 199 (5): 617-627
Kenter AL; Wuerffel R; Dominguez C; Shanmugam A; Zhang HM
Mapping of a functional recombination motif that defines Isotype specificity for mu ->gamma 3 switch recombination implicates NF-kappa B p50 as the isotype-specific switching factor
2 5
39 6 56 39 2004 JOURNAL OF EXPERIMENTAL MEDICINE 199 (7): 917-924
Zeng XM; Negrete GA; Kasmer C; Yang WW; Gearhart PJ
Absence of DNA polymerase eta reveals targeting of C mutations on the nontranscribed strand in immunoglobulin switch regions
11 17
40 5 69 40 2004 JOURNAL OF EXPERIMENTAL MEDICINE 199 (9): 1235-1244
McBride KM; Barreto V; Ramiro AR; Stavropoulos P; Nussenzweig MC
Somatic hypermutation is limited by CRM1-dependent nuclear export of activation-induced deaminase
11 18
# LCR NCR Node / Date / Journal / Author LCS GCS
41 10 58 41 2004 JOURNAL OF EXPERIMENTAL MEDICINE 200 (1): 47-59
Li ZQ; Scherer SJ; Ronai D; Iglesias-Ussel MD; Peled JU; et al.
Examination of Msh6-and Msh3-deficient mice in class switching reveals overlapping and distinct roles of MutS homologues in antibody diversification
11 18
42 11 43 42 2004 JOURNAL OF EXPERIMENTAL MEDICINE 200 (1): 61-68
Martomo SA; Yang WW; Gearhart PJ
A role for Msh6 but not Msh3 in somatic hypermutation and class switch recombination
4 9
43 9 80 43 2004 JOURNAL OF EXPERIMENTAL MEDICINE 200 (3): 321-330
Schrader CE; Vardo J; Linehan E; Twarog MZ; Niedernhofer LJ; et al.
Deletion of the nucleotide excision repair gene Ercc1 reduces immunoglobulin class switching and alters mutations near switch recombination junctions
4 4
44 10 83 44 2004 JOURNAL OF EXPERIMENTAL MEDICINE 200 (9): 1103-1110
Reina-San-Martin B; Chen HT; Nussenzweig A; Nussenzweig MC
ATM is required for efficient recombination between immunoglobulin switch regions
2 9
45 2 29 45 2004 JOURNAL OF IMMUNOLOGY 172 (6): 3382-3384
Rogozin IB; Diaz M
Cutting edge: DGYW/WRCH is a better predictor of mutability at G : C bases in Ig hypermutation than the widely accepted RGYW/WRCY motif and probably reflects a two-step activation-induced cytidine deaminase-triggered process
8 11
46 2 54 46 2004 JOURNAL OF IMMUNOLOGY 172 (7): 4308-4313
Poltoratsky VP; Wilson SH; Kunkel TA; Pavlov YI
Recombinogenic phenotype of human activation-induced cytosine deaminase
6 9
47 6 96 47 2004 JOURNAL OF IMMUNOLOGY 172 (10): 5815-5821
Wang CL; Wabl M
DNA acrobats of the Ig class switch
2 3
48 4 80 48 2004 JOURNAL OF IMMUNOLOGY 172 (11): 6513-6518
Cascalho M
Advantages and disadvantages of cytidine deamination
0 2
49 2 66 49 2004 JOURNAL OF IMMUNOLOGY 173 (9): 5531-5539
Dunnick WA; Shi J; Graves KA; Collins JT
Germline transcription and switch recombination of a transgene containing the entire H chain constant region locus: Effect of a mutation in a STAT6 binding site in the gamma 1 promoter
1 4
50 3 57 50 2004 JOURNAL OF MOLECULAR BIOLOGY 337 (3): 585-596
Beale RCL; Petersen-Mahrt SK; Watt IN; Harris RS; Rada C; et al.
Comparison of the differential context-dependence of DNA deamination by APOBEC enzymes: Correlation with mutation spectra in vivo
11 38
# LCR NCR Node / Date / Journal / Author LCS GCS
51 12 41 51 2004 MOLECULAR CELL 16 (2): 163-171
Rada C; Di Noia JM
Mismatch recognition and uracil excision provide complementary paths to both Ig switching and the A/T-focused phase of somatic mutation
15 32
52 2 28 52 2004 MOLECULAR IMMUNOLOGY 40 (17): 1273-1278
Boursier L; Su W; Spencer J
Analysis of strand biased 'G'center dot C hypermutation in human immunoglobulin V-lambda gene segments suggests that both DNA strands are targets for deamination by activation-induced cytidine deaminase
1 2
53 3 13 53 2004 NATURE 430 (7003): 980-981
Ramiro AR; Nussenzweig MC
Immunology - Aid for AID
0 0
54 7 50 54 2004 NATURE 430 (7003): 992-998
Chaudhuri J; Khuong C; Alt FW
Replication protein A interacts with AID to promote deamination of somatic hypermutation targets
27 46
55 5 102 55 2004 NATURE IMMUNOLOGY 5 (1): 23-30
Fischer A
Human primary immunodeficiency diseases: a perspective
0 12
56 2 50 56 2004 NATURE IMMUNOLOGY 5 (2): 224-229
Bardwell PD; Woo CJ; Wei KC; Li ZQ; Martin A; et al.
Altered somatic hypermutation and reduced class-switch recombination in exonuclease 1-mutant mice
24 42
57 4 49 57 2004 NATURE IMMUNOLOGY 5 (5): 481-487
Manis JP; Morales JC; Xia ZF; Kutok JL; Alt FW; et al.
53BP1 links DNA damage-response pathways to immunoglobulin heavy chain class-switch recombination
9 19
58 5 31 58 2004 NATURE IMMUNOLOGY 5 (7): 707-712
Shinkura R; Ito S; Begum NA; Nagaoka H; Muramatsu M; et al.
Separate domains of AID are required for somatic hypermutation and class-switch recombination
13 23
59 11 50 59 2004 NATURE IMMUNOLOGY 5 (12): 1275-1281
Zarrin AA; Alt FW; Chaudhuri J; Stokes N; Kaushal D; et al.
An evolutionarily conserved target motif for immunoglobulin class-switch recombination
5 12
60 7 26 60 2004 NATURE MEDICINE 10 (12): 1304-1305
Nussenzweig MC; Alt FW
Antibody diversity: one enzyme to rule them all
0 3
# LCR NCR Node / Date / Journal / Author LCS GCS
61 13 106 61 2004 NATURE REVIEWS IMMUNOLOGY 4 (7): 541-552
Chaudhuri J; Alt FW
Class-switch recombination: Interplay of transcription, DNA deamination and DNA repair
13 43
62 10 106 62 2004 NATURE REVIEWS IMMUNOLOGY 4 (11): 868-877
Harris RS; Liddament MT
Retroviral restriction by APOBEC proteins
2 14
63 1 36 63 2004 NATURE STRUCTURAL & MOLECULAR BIOLOGY 11 (5): 435-442
Yu Q; Konig R; Pillai S; Chiles K; Kearney M; et al.
Single-strand specificity of APOBEC3G accounts for minus-strand deamination of the HIV genome
5 46
64 4 66 64 2004 NUCLEIC ACIDS RESEARCH 32 (19): 5861-5873
Ruiz JF; Lucas D; Garcia-Palomero E; Saez AI; Gonzalez MA; et al.
Overexpression of human DNA polymerase mu (Pol mu) in a Burkitt's lymphoma cell line affects the somatic hypermutation rate
0 4
65 4 37 65 2004 PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 101 (7): 1975-1980
Ito S; Nagaoka H; Shinkura R; Begum N; Muramatsu M; et al.
Activation-induced cytidine deaminase shuttles between nucleus and cytoplasm like apolipoprotein B mRNA editing catalytic polypeptide 1
22 38
66 4 54 66 2004 PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 101 (21): 8114-8119
Xie KF; Sowden MP; Dance GSC; Torelli AT; Smith HC; et al.
The structure of a yeast RNA-editing deaminase provides insight into the fold and function of activation-induced deaminase and APOBEC-1
4 9
67 4 28 67 2004 PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 101 (35): 12997-13002
Shen HM; Storb U
Activation-induced cytidine deaminase (AID) can target both DNA strands when the DNA is supercoiled
9 11
68 8 37 68 2004 PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 101 (35): 13003-13007
Begum NA; Kinoshita K; Muramatsu M; Nagaoka H; Shinkura R; et al.
De novo protein synthesis is required for activation-induced cytidine deaminase-dependent DNA cleavage in immunoglobulin class switch recombination
6 13
69 12 53 69 2004 PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 101 (43): 15428-15433
Li ZQ; Luo ZH; Scharff MD
Differential regulation of histone acetylation and generation of mutations in switch regions is associated with Ig class switching
1 4
70 6 29 70 2004 SCIENCE 305 (5687): 1160-1163
Begum NA; Kinoshita K; Kakazu N; Muramatsu M; Nagaoka H; et al.
Uracil DNA glycosylase activity is dispensable for immunloglobulin class switch
16 36
# LCR NCR Node / Date / Journal / Author LCS GCS
71 3 16 71 2004 SCIENCE 306 (5704): 2042A-2042A
Stivers JT
Comment on "uracil DNA glycosylase activity is dispensable for immunoglobutin class switch"
0 0
72 8 209 72 2004 SEMINARS IN IMMUNOLOGY 16 (4): 257-275
Stavnezer J; Amemiya CT
Evolution of isotype switching
0 4
73 5 34 73 2004 TRENDS IN GENETICS 20 (8): 337-340
Kaminski DA; Stavnezer J
Antibody class switching: uncoupling S region accessibility from transcription
1 6
74 20 479 74 2005 ADVANCES IN IMMUNOLOGY, VOL 86 86: 43-112
Dudley DD; Chaudhuri J; Bassing CH; Alt FW
Mechanism and control of V(D)J recombination versus class switch recombination: Similarities and differences
0 1
75 19 281 75 2005 ADVANCES IN IMMUNOLOGY, VOL 87 87: 237-295
Revy P; Buck D; le Deist F; de Villartay JP
The repair of DNA damages/modifications during the maturation of the immune system: Lessons from human primary immunodeficiency disorders and animal models
0 0
76 21 157 76 2005 ADVANCES IN IMMUNOLOGY, VOL 87 87: 297-328
Min IM; Selsing E
Antibody class switch recombination: Roles for switch sequences and mismatch repair proteins
0 0
77 4 53 77 2005 BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS 327 (1): 76-83
Okamoto M; Okamoto N; Yashiro H; Shiokawa D; Sunaga S; et al.
Involvement of DNase gamma in the resected double-strand DNA breaks in immunoglobulin genes
0 1
78 24 137 78 2005 BIOCHEMISTRY 44 (8): 2703-2715
Pham P; Bransteitter R; Goodman MF
Reward versus risk: DNA cytidine deaminases triggering immunity and disease
1 5
79 12 42 79 2005 CLINICAL IMMUNOLOGY 115 (3): 277-285
Imai K; Zhu Y; Revy P; Morio T; Mizutani S; et al.
Analysis of class switch recombination and somatic hypermutation in patients affected with autosomal dominant hyper-IgM syndrome type 2
0 0
80 4 46 80 2005 EUROPEAN JOURNAL OF IMMUNOLOGY 35 (1): 290-298
Ruckerl F; Bachl J
Activation-induced cytidine dearninase fails to induce a mutator phenotype in the human pre-B cell line Nalm-6
0 0
# LCR NCR Node / Date / Journal / Author LCS GCS
81 7 64 81 2005 EUROPEAN JOURNAL OF IMMUNOLOGY 35 (7): 2222-2229
Klasen M; Spillmann FJX; Marra G; Cejka P; Wabl M
Somatic hypermutation and mismatch repair in non-B cells
0 0
82 2 33 82 2005 GENES CHROMOSOMES & CANCER 42 (2): 164-169
Guikema JEJ; Fenton JAL; de Boer C; Kleiverda K; Brink AATP; et al.
Complex biallelic IGH rearrangements in IgM-expressing Z-138 cell line: Involvement of downstream immunoglobulin class switch recombination
0 0
83 12 43 83 2005 IMMUNOGENETICS 56 (11): 840-845
Larijani M; Frieder D; Basit W; Martin A
The mutation spectrum of purified AID is similar to the mutability index in Ramos cells and in ung(-/-)msh2(-/-) mice
1 2
84 6 34 84 2005 IMMUNOGENETICS 56 (11): 849-853
Wang CL; Wabl M
Mutational activity in cell line WEHI-231
0 1
85 9 120 85 2005 IMMUNOLOGICAL REVIEWS 203: 67-79
Durandy A; Revy P; Imai K; Fischer A
Hyper-immunoglobulin M syndromes caused by intrinsic B-lymphocyte defects
0 0
86 23 170 86 2005 IMMUNOLOGICAL REVIEWS 203: 80-97
Petersen-Mahrt S
DNA deamination in immunity
1 1
87 11 115 87 2005 IMMUNOLOGY AND CELL BIOLOGY 83 (4): 383-391
Franklin A; Blanden RV
Hypothesis: Biological role for J-C intronic matrix attachment regions in the molecular mechanism of antigen-driven somatic hypermutation
0 0
88 11 62 88 2005 JOURNAL OF EXPERIMENTAL MEDICINE 201 (4): 637-645
Wilson TM; Vaisman A; Martorno SA; Sullivan P; Lan L; et al.
MSH2-MSH6 stimulates DNA polymerase eta, suggesting a role for A : T mutations in antibody genes
3 7
89 10 47 89 2005 JOURNAL OF EXPERIMENTAL MEDICINE 201 (9): 1467-1478
Zheng NY; Wilson K; Jared M; Wilson PC
Intricate targeting of immunoglobulin somatic hypermutation maximizes the efficiency of affinity maturation
0 0
90 9 46 90 2005 JOURNAL OF EXPERIMENTAL MEDICINE 201 (12): 2011-2021
Kavli B; Andersen S; Otterlei M; Liabakk NB; Imai K; et al.
B cells from hyper-IgM patients carrying UNG mutations lack ability to remove uracil from ssDNA and have elevated genomic uracil
1 1
# LCR NCR Node / Date / Journal / Author LCS GCS
91 13 42 91 2005 JOURNAL OF EXPERIMENTAL MEDICINE 202 (4): 561-568
Schrader CE; Linehan EK; Mochegova SN; Woodland RT; Stavnezer J
Inducible DNA breaks in Ig S regions are dependent on AID and UNG
0 0
92 10 44 92 2005 JOURNAL OF IMMUNOLOGY 174 (2): 934-941
Wu XS; Geraldes P; Platt JL; Cascalho M
The double-edged sword of activation-induced cytidine deaminase
2 3
93 14 57 93 2005 JOURNAL OF IMMUNOLOGY 174 (12): 7781-7786
Mayorov VI; Rogozin IB; Adkison LR; Gearhart PJ
DNA polymerase eta contributes to strand bias of mutations of A versus T in immunoglobulin genes
0 1
94 12 35 94 2005 JOURNAL OF IMMUNOLOGY 174 (12): 7787-7791
Martomo SA; Fu DT; Yang WW; Joshi NS; Gearhart PJ
Deoxyuridine is generated preferentially in the nontranscribed strand of DNA from cells expressing activation-induced cytidine deaminase
0 0
95 3 24 95 2005 JOURNAL OF IMMUNOLOGY 175 (9): 5615-5618
Kawatani Y; Igarashi H; Matsui T; Kuwahara A; Fujimura S; et al.
Double-stranded DNA breaks in the IgV region gene were detected at lower frequency in affinity-maturation impeded GANP(-/-) mice
0 0
96 9 39 96 2005 MOLECULAR AND CELLULAR BIOLOGY 25 (5): 1730-1736
Yu KF; Roy D; Bayramyan M; Haworth IS; Lieber MR
Fine-structure analysis of activation-induced deaminase accessibility to class switch region R-loops
0 1
97 4 51 97 2005 MOLECULAR AND CELLULAR BIOLOGY 25 (16): 7270-7277
Mikl MC; Watt IN; Lu M; Reik W; Davies SL; et al.
Mice deficient in APOBEC2 and APOBEC3
0 0
98 5 56 98 2005 MOLECULAR CELL 20 (3): 367-375
Larson ED; Cummings WJ; Bednarski DW; Maizels N
MRE11/RAD50 cleaves DNA in the AID/UNG-dependent pathway of immunoglobulin gene diversification
0 0
99 2 29 99 2005 MOLECULAR IMMUNOLOGY 42 (5): 599-604
Larijani M; Frieder D; Sonbuchner TM; Bransteitter R; Goodman ME; et al.
Methylation protects cytidines from AID-mediated deamination
1 1
100 5 29 100 2005 NATURE 438 (7067): 508-511
Basu U; Chaudhuri J; Alpert C; Dutt S; Ranganath S; et al.
The AID antibody diversification enzyme is regulated by protein kinase A phosphorylation
0 0

#	LCR	NCR	Node / Date / Journal / Author	LCS	GCS
1	3	65	1 2003 DNA REPAIR 2 (11): 1163-1174 Yu KF; Lieber MR Nucleic acid structures and enzymes in the immunoglobulin class switch recombination mechanism	7	12
2	4	51	2 2003 EMBO JOURNAL 22 (21): 5893-5903 Schrader CE; Bradley SP; Vardo J; Mochegova SN; Flanagan E; et al. Mutations occur in the Ig S mu region but rarely in S gamma regions prior to class switch recombination	12	16
3	1	39	3 2003 IMMUNITY 19 (2): 235-242 Michael N; Shen HM; Longerich S; Kim N; Longacre A; et al. The E box motif CAGGTG enhances somatic hypermutation without enhancing transcription	5	15
4	2	52	4 2003 IMMUNITY 19 (4): 515-524 Min IM; Schrader CE; Vardo J; Luby TM; D'Avirro N; et al. The S mu tandem repeat region is critical for Ig isotype switching in the absence of Msh2	8	11
5	1	21	5 2003 JOURNAL OF CLINICAL INVESTIGATION 112 (1): 19-22 Manis JP; Alt FW Novel antibody switching defects in human patients	2	3
6	0	21	6 2003 JOURNAL OF EXPERIMENTAL MEDICINE 197 (10): 1291-1296 Dickerson SK; Market E; Besmer E; Papavasiliou EN AID mediates hypermutation by deaminating single stranded DNA	104	104
7	1	89	7 2003 JOURNAL OF EXPERIMENTAL MEDICINE 197 (12): 1767-1778 Reina-San-Martin B; Difilippantonio S; Hanitsch L; Masilamani RF; Nussenzweig A; et al. H2AX is required for recombination between immunoglobulin switch regions but not for intra-switch region recombination or somatic hypermutation	27	57
8	1	50	8 2003 JOURNAL OF EXPERIMENTAL MEDICINE 198 (8): 1171-1178 Martin A; Li ZQ; Lin DP; Bardwell PD; Iglesias-Ussel MD; et al. Msh2 ATPase activity is essential for somatic hypermutation at A-T basepairs and for efficient class switch recombination	19	25
9	3	45	9 2003 MOLECULAR CELL 12 (2): 501-508 Barreto V; Reina-San-Martin B; Ramiro AR; McBride KM; Nussenzweig MC C-terminal deletion of AID uncouples class switch recombination from somatic hypermutation and gene conversion	25	42
10	1	27	10 2003 NATURE 424 (6944): 103-107 Pham P; Bransteitter R; Petruska J; Goodman MF Processive AID-catalysed cytosine deamination on single-stranded DNA simulates somatic hypermutation	67	100
#	LCR	NCR	Node / Date / Journal / Author	LCS	GCS
11	1	29	11 2003 NATURE IMMUNOLOGY 4 (7): 641-643 Harris RS; Sheehy AM; Craig HM; Malim MH; Neuberger MS DNA deamination: not just a trigger for antibody diversification but also a mechanism for defense against retroviruses	5	17
12	2	47	12 2003 NATURE IMMUNOLOGY 4 (9): 843-848 Ta VT; Nagaoka H; Catalan N; Durandy A; Fischer A; et al. AID mutant analyses indicate requirement for class-switch-specific cofactors	36	68
13	1	17	13 2003 ONCOGENE 22 (35): 5379-5380 Gearhart PJ B cells pay a price	0	2
14	3	33	14 2003 PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 100 (22): 12895-12898 Eto T; Kinoshita K; Yoshikawa K; Muramatsu M; Honjo T RNA-editing cytidine deaminase Apobec-1 is unable to induce somatic hypermutation in mammalian cells	7	10
15	1	224	15 2004 ADVANCES IN IMMUNOLOGY, VOL 82 82: 295-330 Durandy A; Revy P; Fischer A Human models of inherited immunoglobulin class switch recombination and somatic hypermutation defects (hyper-IgM syndromes)	1	4
16	2	59	16 2004 BLOOD 103 (10): 3828-3836 Khamlichi AA; Glaudet F; Oruc Z; Denis V; Le Bert M; et al. Immunoglobulin class-switch recombination in mice devoid of any S mu tandem repeat	3	6
17	4	52	17 2004 BLOOD 104 (10): 3318-3325 Pasqualucci L; Guglielmino R; Houldsworth J; Mohr J; Aoufouchi S; et al. Expression of the AID protein in normal and neoplastic B cells	2	9
18	3	21	18 2004 CURRENT OPINION IN IMMUNOLOGY 16 (2): 163-166 Berg LJ; Nussenzweig M Lymphocyte development - Signals that regulate lymphocyte development and differentiation - Editorial overview	0	0
19	3	43	19 2004 CURRENT OPINION IN IMMUNOLOGY 16 (2): 241-245 Besmer E; Gourzi P; Papavasiliou FN The regulation of somatic hypermutation	3	9
20	2	29	20 2004 DNA REPAIR 3 (1): 85-89 Bhagwat AS DNA-cytosine deaminases: from antibody maturation to antiviral defense	4	4
#	LCR	NCR	Node / Date / Journal / Author	LCS	GCS
21	5	33	21 2004 DNA REPAIR 3 (7): 687-692 Steele EJ DNA polymerase-eta as a reverse transcriplase: implications for mechanisms of hypermutation in innate anti-retroviral defences and antibody SHM systems	1	2
22	1	93	22 2004 DNA REPAIR 3 (7): 693-702 Sale JE Immunoglobulin diversification in DT40: a model for vertebrate DNA damage tolerance	1	3
23	8	131	23 2004 DNA REPAIR AND REPLICATION 69: 307-335 Tippin B; Pham P; Bransteitter R; Goodman MF Somatic hypermutation: A mutational panacea	0	0
24	2	26	24 2004 EUROPEAN JOURNAL OF IMMUNOLOGY 34 (3): 844-849 Fugmann SD; Rush JS; Schatz DG Non-redundancy of cytidine deaminases in class switch recombination	4	5
25	6	87	25 2004 GENES & DEVELOPMENT 18 (1): 1-11 Li ZQ; Woo CJ; Iglesias-Ussel MD; Ronai D; Scharff MD The generation of antibody diversity through somatic hypermutation and class switch recombination	10	31
26	10	81	26 2004 IMMUNITY 20 (6): 659-668 Honjo T; Muramatsu M; Fagarasan S AID: How does it aid antibody diversity?	14	39
27	2	243	27 2004 IMMUNOLOGICAL REVIEWS 200: 115-131 Rooney S; Chaudhuri J; Alt FW The role of the non-homologous end-joining pathway in lymphocyte development	4	9
28	4	30	28 2004 IMMUNOLOGY AND CELL BIOLOGY 82 (2): 205-208 Blanden RV; Franklin A; Steele EJ The boundaries of the distribution of somatic hypermutation of rearranged immunoglobulin variable genes	3	3
29	3	67	29 2004 IMMUNOLOGY AND CELL BIOLOGY 82 (2): 209-218 Steele EJ; Franklin A; Blanden RV Genesis of the strand-biased signature in somatic hypermutation of rearranged immunoglobulin variable genes	5	8
30	2	68	30 2004 IMMUNOLOGY AND CELL BIOLOGY 82 (2): 219-225 Franklin A; Milburn PJ; Blanden RV; Steele EJ Human DNA polymerase-eta, an A-T mutator in somatic hypermutation of rearranged immunoglobulin genes, is a reverse transcriptase	4	7
#	LCR	NCR	Node / Date / Journal / Author	LCS	GCS
31	9	108	31 2004 IMMUNOLOGY AND CELL BIOLOGY 82 (6): 557-567 Franklin A; Blanden RV On the molecular mechanism of somatic hypermutation of rearranged immunoglobulin genes	1	1
32	1	27	32 2004 INTERNATIONAL IMMUNOLOGY 16 (4): 549-557 Rush JS; Fugmann SD; Schatz DG Staggered AID-dependent DNA double strand breaks are the predominant DNA lesions targeted to S mu in Ig class switch recombination	11	19
33	10	94	33 2004 JOURNAL OF ALLERGY AND CLINICAL IMMUNOLOGY 114 (4): 726-735 Luo ZH; Ronai D; Scharff MD The role of activation-induced cytidine deaminase in antibody diversification, immunodeficiency, and B-cell malignancies	1	2
34	2	32	34 2004 JOURNAL OF BIOLOGICAL CHEMISTRY 279 (8): 6496-6500 Yu KF; Huang FT; Lieber AR DNA substrate length and surrounding sequence affect the activation-induced deaminase activity at cytidine	25	31
35	10	60	35 2004 JOURNAL OF BIOLOGICAL CHEMISTRY 279 (25): 26395-26401 Brar SS; Watson M; Diaz M Activation-induced cytosine deaminase (AID) is actively exported out of the nucleus but retained by the induction of DNA breaks	8	12
36	14	41	36 2004 JOURNAL OF BIOLOGICAL CHEMISTRY 279 (49): 51612-51621 Bransteitter R; Pham P; Calabrese P; Goodman MF Biochemical analysis of hypermutational targeting by wild type and mutant activation-induced cytidine deaminase	3	6
37	2	38	37 2004 JOURNAL OF CELL BIOLOGY 165 (4): 459-464 Ward IM; Reina-San-Martin B; Olaru A; Minn K; Tamada K; et al. 53BP1 is required for class switch recombination	5	14
38	5	67	38 2004 JOURNAL OF EXPERIMENTAL MEDICINE 199 (5): 617-627 Kenter AL; Wuerffel R; Dominguez C; Shanmugam A; Zhang HM Mapping of a functional recombination motif that defines Isotype specificity for mu ->gamma 3 switch recombination implicates NF-kappa B p50 as the isotype-specific switching factor	2	5
39	6	56	39 2004 JOURNAL OF EXPERIMENTAL MEDICINE 199 (7): 917-924 Zeng XM; Negrete GA; Kasmer C; Yang WW; Gearhart PJ Absence of DNA polymerase eta reveals targeting of C mutations on the nontranscribed strand in immunoglobulin switch regions	11	17
40	5	69	40 2004 JOURNAL OF EXPERIMENTAL MEDICINE 199 (9): 1235-1244 McBride KM; Barreto V; Ramiro AR; Stavropoulos P; Nussenzweig MC Somatic hypermutation is limited by CRM1-dependent nuclear export of activation-induced deaminase	11	18
#	LCR	NCR	Node / Date / Journal / Author	LCS	GCS
41	10	58	41 2004 JOURNAL OF EXPERIMENTAL MEDICINE 200 (1): 47-59 Li ZQ; Scherer SJ; Ronai D; Iglesias-Ussel MD; Peled JU; et al. Examination of Msh6-and Msh3-deficient mice in class switching reveals overlapping and distinct roles of MutS homologues in antibody diversification	11	18
42	11	43	42 2004 JOURNAL OF EXPERIMENTAL MEDICINE 200 (1): 61-68 Martomo SA; Yang WW; Gearhart PJ A role for Msh6 but not Msh3 in somatic hypermutation and class switch recombination	4	9
43	9	80	43 2004 JOURNAL OF EXPERIMENTAL MEDICINE 200 (3): 321-330 Schrader CE; Vardo J; Linehan E; Twarog MZ; Niedernhofer LJ; et al. Deletion of the nucleotide excision repair gene Ercc1 reduces immunoglobulin class switching and alters mutations near switch recombination junctions	4	4
44	10	83	44 2004 JOURNAL OF EXPERIMENTAL MEDICINE 200 (9): 1103-1110 Reina-San-Martin B; Chen HT; Nussenzweig A; Nussenzweig MC ATM is required for efficient recombination between immunoglobulin switch regions	2	9
45	2	29	45 2004 JOURNAL OF IMMUNOLOGY 172 (6): 3382-3384 Rogozin IB; Diaz M Cutting edge: DGYW/WRCH is a better predictor of mutability at G : C bases in Ig hypermutation than the widely accepted RGYW/WRCY motif and probably reflects a two-step activation-induced cytidine deaminase-triggered process	8	11
46	2	54	46 2004 JOURNAL OF IMMUNOLOGY 172 (7): 4308-4313 Poltoratsky VP; Wilson SH; Kunkel TA; Pavlov YI Recombinogenic phenotype of human activation-induced cytosine deaminase	6	9
47	6	96	47 2004 JOURNAL OF IMMUNOLOGY 172 (10): 5815-5821 Wang CL; Wabl M DNA acrobats of the Ig class switch	2	3
48	4	80	48 2004 JOURNAL OF IMMUNOLOGY 172 (11): 6513-6518 Cascalho M Advantages and disadvantages of cytidine deamination	0	2
49	2	66	49 2004 JOURNAL OF IMMUNOLOGY 173 (9): 5531-5539 Dunnick WA; Shi J; Graves KA; Collins JT Germline transcription and switch recombination of a transgene containing the entire H chain constant region locus: Effect of a mutation in a STAT6 binding site in the gamma 1 promoter	1	4
50	3	57	50 2004 JOURNAL OF MOLECULAR BIOLOGY 337 (3): 585-596 Beale RCL; Petersen-Mahrt SK; Watt IN; Harris RS; Rada C; et al. Comparison of the differential context-dependence of DNA deamination by APOBEC enzymes: Correlation with mutation spectra in vivo	11	38
#	LCR	NCR	Node / Date / Journal / Author	LCS	GCS
51	12	41	51 2004 MOLECULAR CELL 16 (2): 163-171 Rada C; Di Noia JM Mismatch recognition and uracil excision provide complementary paths to both Ig switching and the A/T-focused phase of somatic mutation	15	32
52	2	28	52 2004 MOLECULAR IMMUNOLOGY 40 (17): 1273-1278 Boursier L; Su W; Spencer J Analysis of strand biased 'G'center dot C hypermutation in human immunoglobulin V-lambda gene segments suggests that both DNA strands are targets for deamination by activation-induced cytidine deaminase	1	2
53	3	13	53 2004 NATURE 430 (7003): 980-981 Ramiro AR; Nussenzweig MC Immunology - Aid for AID	0	0
54	7	50	54 2004 NATURE 430 (7003): 992-998 Chaudhuri J; Khuong C; Alt FW Replication protein A interacts with AID to promote deamination of somatic hypermutation targets	27	46
55	5	102	55 2004 NATURE IMMUNOLOGY 5 (1): 23-30 Fischer A Human primary immunodeficiency diseases: a perspective	0	12
56	2	50	56 2004 NATURE IMMUNOLOGY 5 (2): 224-229 Bardwell PD; Woo CJ; Wei KC; Li ZQ; Martin A; et al. Altered somatic hypermutation and reduced class-switch recombination in exonuclease 1-mutant mice	24	42
57	4	49	57 2004 NATURE IMMUNOLOGY 5 (5): 481-487 Manis JP; Morales JC; Xia ZF; Kutok JL; Alt FW; et al. 53BP1 links DNA damage-response pathways to immunoglobulin heavy chain class-switch recombination	9	19
58	5	31	58 2004 NATURE IMMUNOLOGY 5 (7): 707-712 Shinkura R; Ito S; Begum NA; Nagaoka H; Muramatsu M; et al. Separate domains of AID are required for somatic hypermutation and class-switch recombination	13	23
59	11	50	59 2004 NATURE IMMUNOLOGY 5 (12): 1275-1281 Zarrin AA; Alt FW; Chaudhuri J; Stokes N; Kaushal D; et al. An evolutionarily conserved target motif for immunoglobulin class-switch recombination	5	12
60	7	26	60 2004 NATURE MEDICINE 10 (12): 1304-1305 Nussenzweig MC; Alt FW Antibody diversity: one enzyme to rule them all	0	3
#	LCR	NCR	Node / Date / Journal / Author	LCS	GCS
61	13	106	61 2004 NATURE REVIEWS IMMUNOLOGY 4 (7): 541-552 Chaudhuri J; Alt FW Class-switch recombination: Interplay of transcription, DNA deamination and DNA repair	13	43
62	10	106	62 2004 NATURE REVIEWS IMMUNOLOGY 4 (11): 868-877 Harris RS; Liddament MT Retroviral restriction by APOBEC proteins	2	14
63	1	36	63 2004 NATURE STRUCTURAL & MOLECULAR BIOLOGY 11 (5): 435-442 Yu Q; Konig R; Pillai S; Chiles K; Kearney M; et al. Single-strand specificity of APOBEC3G accounts for minus-strand deamination of the HIV genome	5	46
64	4	66	64 2004 NUCLEIC ACIDS RESEARCH 32 (19): 5861-5873 Ruiz JF; Lucas D; Garcia-Palomero E; Saez AI; Gonzalez MA; et al. Overexpression of human DNA polymerase mu (Pol mu) in a Burkitt's lymphoma cell line affects the somatic hypermutation rate	0	4
65	4	37	65 2004 PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 101 (7): 1975-1980 Ito S; Nagaoka H; Shinkura R; Begum N; Muramatsu M; et al. Activation-induced cytidine deaminase shuttles between nucleus and cytoplasm like apolipoprotein B mRNA editing catalytic polypeptide 1	22	38
66	4	54	66 2004 PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 101 (21): 8114-8119 Xie KF; Sowden MP; Dance GSC; Torelli AT; Smith HC; et al. The structure of a yeast RNA-editing deaminase provides insight into the fold and function of activation-induced deaminase and APOBEC-1	4	9
67	4	28	67 2004 PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 101 (35): 12997-13002 Shen HM; Storb U Activation-induced cytidine deaminase (AID) can target both DNA strands when the DNA is supercoiled	9	11
68	8	37	68 2004 PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 101 (35): 13003-13007 Begum NA; Kinoshita K; Muramatsu M; Nagaoka H; Shinkura R; et al. De novo protein synthesis is required for activation-induced cytidine deaminase-dependent DNA cleavage in immunoglobulin class switch recombination	6	13
69	12	53	69 2004 PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 101 (43): 15428-15433 Li ZQ; Luo ZH; Scharff MD Differential regulation of histone acetylation and generation of mutations in switch regions is associated with Ig class switching	1	4
70	6	29	70 2004 SCIENCE 305 (5687): 1160-1163 Begum NA; Kinoshita K; Kakazu N; Muramatsu M; Nagaoka H; et al. Uracil DNA glycosylase activity is dispensable for immunloglobulin class switch	16	36
#	LCR	NCR	Node / Date / Journal / Author	LCS	GCS
71	3	16	71 2004 SCIENCE 306 (5704): 2042A-2042A Stivers JT Comment on "uracil DNA glycosylase activity is dispensable for immunoglobutin class switch"	0	0
72	8	209	72 2004 SEMINARS IN IMMUNOLOGY 16 (4): 257-275 Stavnezer J; Amemiya CT Evolution of isotype switching	0	4
73	5	34	73 2004 TRENDS IN GENETICS 20 (8): 337-340 Kaminski DA; Stavnezer J Antibody class switching: uncoupling S region accessibility from transcription	1	6
74	20	479	74 2005 ADVANCES IN IMMUNOLOGY, VOL 86 86: 43-112 Dudley DD; Chaudhuri J; Bassing CH; Alt FW Mechanism and control of V(D)J recombination versus class switch recombination: Similarities and differences	0	1
75	19	281	75 2005 ADVANCES IN IMMUNOLOGY, VOL 87 87: 237-295 Revy P; Buck D; le Deist F; de Villartay JP The repair of DNA damages/modifications during the maturation of the immune system: Lessons from human primary immunodeficiency disorders and animal models	0	0
76	21	157	76 2005 ADVANCES IN IMMUNOLOGY, VOL 87 87: 297-328 Min IM; Selsing E Antibody class switch recombination: Roles for switch sequences and mismatch repair proteins	0	0
77	4	53	77 2005 BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS 327 (1): 76-83 Okamoto M; Okamoto N; Yashiro H; Shiokawa D; Sunaga S; et al. Involvement of DNase gamma in the resected double-strand DNA breaks in immunoglobulin genes	0	1
78	24	137	78 2005 BIOCHEMISTRY 44 (8): 2703-2715 Pham P; Bransteitter R; Goodman MF Reward versus risk: DNA cytidine deaminases triggering immunity and disease	1	5
79	12	42	79 2005 CLINICAL IMMUNOLOGY 115 (3): 277-285 Imai K; Zhu Y; Revy P; Morio T; Mizutani S; et al. Analysis of class switch recombination and somatic hypermutation in patients affected with autosomal dominant hyper-IgM syndrome type 2	0	0
80	4	46	80 2005 EUROPEAN JOURNAL OF IMMUNOLOGY 35 (1): 290-298 Ruckerl F; Bachl J Activation-induced cytidine dearninase fails to induce a mutator phenotype in the human pre-B cell line Nalm-6	0	0
#	LCR	NCR	Node / Date / Journal / Author	LCS	GCS
81	7	64	81 2005 EUROPEAN JOURNAL OF IMMUNOLOGY 35 (7): 2222-2229 Klasen M; Spillmann FJX; Marra G; Cejka P; Wabl M Somatic hypermutation and mismatch repair in non-B cells	0	0
82	2	33	82 2005 GENES CHROMOSOMES & CANCER 42 (2): 164-169 Guikema JEJ; Fenton JAL; de Boer C; Kleiverda K; Brink AATP; et al. Complex biallelic IGH rearrangements in IgM-expressing Z-138 cell line: Involvement of downstream immunoglobulin class switch recombination	0	0
83	12	43	83 2005 IMMUNOGENETICS 56 (11): 840-845 Larijani M; Frieder D; Basit W; Martin A The mutation spectrum of purified AID is similar to the mutability index in Ramos cells and in ung(-/-)msh2(-/-) mice	1	2
84	6	34	84 2005 IMMUNOGENETICS 56 (11): 849-853 Wang CL; Wabl M Mutational activity in cell line WEHI-231	0	1
85	9	120	85 2005 IMMUNOLOGICAL REVIEWS 203: 67-79 Durandy A; Revy P; Imai K; Fischer A Hyper-immunoglobulin M syndromes caused by intrinsic B-lymphocyte defects	0	0
86	23	170	86 2005 IMMUNOLOGICAL REVIEWS 203: 80-97 Petersen-Mahrt S DNA deamination in immunity	1	1
87	11	115	87 2005 IMMUNOLOGY AND CELL BIOLOGY 83 (4): 383-391 Franklin A; Blanden RV Hypothesis: Biological role for J-C intronic matrix attachment regions in the molecular mechanism of antigen-driven somatic hypermutation	0	0
88	11	62	88 2005 JOURNAL OF EXPERIMENTAL MEDICINE 201 (4): 637-645 Wilson TM; Vaisman A; Martorno SA; Sullivan P; Lan L; et al. MSH2-MSH6 stimulates DNA polymerase eta, suggesting a role for A : T mutations in antibody genes	3	7
89	10	47	89 2005 JOURNAL OF EXPERIMENTAL MEDICINE 201 (9): 1467-1478 Zheng NY; Wilson K; Jared M; Wilson PC Intricate targeting of immunoglobulin somatic hypermutation maximizes the efficiency of affinity maturation	0	0
90	9	46	90 2005 JOURNAL OF EXPERIMENTAL MEDICINE 201 (12): 2011-2021 Kavli B; Andersen S; Otterlei M; Liabakk NB; Imai K; et al. B cells from hyper-IgM patients carrying UNG mutations lack ability to remove uracil from ssDNA and have elevated genomic uracil	1	1
#	LCR	NCR	Node / Date / Journal / Author	LCS	GCS
91	13	42	91 2005 JOURNAL OF EXPERIMENTAL MEDICINE 202 (4): 561-568 Schrader CE; Linehan EK; Mochegova SN; Woodland RT; Stavnezer J Inducible DNA breaks in Ig S regions are dependent on AID and UNG	0	0
92	10	44	92 2005 JOURNAL OF IMMUNOLOGY 174 (2): 934-941 Wu XS; Geraldes P; Platt JL; Cascalho M The double-edged sword of activation-induced cytidine deaminase	2	3
93	14	57	93 2005 JOURNAL OF IMMUNOLOGY 174 (12): 7781-7786 Mayorov VI; Rogozin IB; Adkison LR; Gearhart PJ DNA polymerase eta contributes to strand bias of mutations of A versus T in immunoglobulin genes	0	1
94	12	35	94 2005 JOURNAL OF IMMUNOLOGY 174 (12): 7787-7791 Martomo SA; Fu DT; Yang WW; Joshi NS; Gearhart PJ Deoxyuridine is generated preferentially in the nontranscribed strand of DNA from cells expressing activation-induced cytidine deaminase	0	0
95	3	24	95 2005 JOURNAL OF IMMUNOLOGY 175 (9): 5615-5618 Kawatani Y; Igarashi H; Matsui T; Kuwahara A; Fujimura S; et al. Double-stranded DNA breaks in the IgV region gene were detected at lower frequency in affinity-maturation impeded GANP(-/-) mice	0	0
96	9	39	96 2005 MOLECULAR AND CELLULAR BIOLOGY 25 (5): 1730-1736 Yu KF; Roy D; Bayramyan M; Haworth IS; Lieber MR Fine-structure analysis of activation-induced deaminase accessibility to class switch region R-loops	0	1
97	4	51	97 2005 MOLECULAR AND CELLULAR BIOLOGY 25 (16): 7270-7277 Mikl MC; Watt IN; Lu M; Reik W; Davies SL; et al. Mice deficient in APOBEC2 and APOBEC3	0	0
98	5	56	98 2005 MOLECULAR CELL 20 (3): 367-375 Larson ED; Cummings WJ; Bednarski DW; Maizels N MRE11/RAD50 cleaves DNA in the AID/UNG-dependent pathway of immunoglobulin gene diversification	0	0
99	2	29	99 2005 MOLECULAR IMMUNOLOGY 42 (5): 599-604 Larijani M; Frieder D; Sonbuchner TM; Bransteitter R; Goodman ME; et al. Methylation protects cytidines from AID-mediated deamination	1	1
100	5	29	100 2005 NATURE 438 (7067): 508-511 Basu U; Chaudhuri J; Alpert C; Dutt S; Ranganath S; et al. The AID antibody diversification enzyme is regulated by protein kinase A phosphorylation	0	0

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