Literature DB >> 11205325

Somatic hypermutation of immunoglobulin and non-immunoglobulin genes.

U Storb1, H M Shen, N Michael, N Kim.   

Abstract

Somatic hypermutation (SHM) of immunoglobulin (Ig) genes is a highly specific mechanism restricted to B lymphocytes during only a few cell generations. Data presented here suggest that transcription of the target genes is required, but not sufficient for SHM. Presumably, cis-acting elements, such as those present in the Ig enhancers, are required to target a mutator factor (MuF) to Ig and human BCL-6 genes. It is postulated that the MuF travels with the transcribing RNA polymerase and is deposited on the target gene when the polymerase pauses. Point mutations, and rare deletions and insertions, are created by the combined actions of MuF and certain DNA polymerases. A subset of the mutations is corrected during SHM by DNA mismatch repair.

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Year:  2001        PMID: 11205325      PMCID: PMC1087686          DOI: 10.1098/rstb.2000.0743

Source DB:  PubMed          Journal:  Philos Trans R Soc Lond B Biol Sci        ISSN: 0962-8436            Impact factor:   6.237


  30 in total

1.  Mismatch repair deficiency interferes with the accumulation of mutations in chronically stimulated B cells and not with the hypermutation process.

Authors:  S Frey; B Bertocci; F Delbos; L Quint; J C Weill; C A Reynaud
Journal:  Immunity       Date:  1998-07       Impact factor: 31.745

2.  Somatic hypermutation in the heavy chain locus correlates with transcription.

Authors:  Y Fukita; H Jacobs; K Rajewsky
Journal:  Immunity       Date:  1998-07       Impact factor: 31.745

Review 3.  Cis-acting sequences that affect somatic hypermutation of Ig genes.

Authors:  U Storb; A Peters; E Klotz; N Kim; H M Shen; J Hackett; B Rogerson; T E Martin
Journal:  Immunol Rev       Date:  1998-04       Impact factor: 12.988

4.  Mismatch repair co-opted by hypermutation.

Authors:  M Cascalho; J Wong; C Steinberg; M Wabl
Journal:  Science       Date:  1998-02-20       Impact factor: 47.728

5.  Mutation of BCL-6 gene in normal B cells by the process of somatic hypermutation of Ig genes.

Authors:  H M Shen; A Peters; B Baron; X Zhu; U Storb
Journal:  Science       Date:  1998-06-12       Impact factor: 47.728

6.  Altered spectra of hypermutation in antibodies from mice deficient for the DNA mismatch repair protein PMS2.

Authors:  D B Winter; Q H Phung; A Umar; S M Baker; R E Tarone; K Tanaka; R M Liskay; T A Kunkel; V A Bohr; P J Gearhart
Journal:  Proc Natl Acad Sci U S A       Date:  1998-06-09       Impact factor: 11.205

7.  Hot spot focusing of somatic hypermutation in MSH2-deficient mice suggests two stages of mutational targeting.

Authors:  C Rada; M R Ehrenstein; M S Neuberger; C Milstein
Journal:  Immunity       Date:  1998-07       Impact factor: 31.745

8.  Different mismatch repair deficiencies all have the same effects on somatic hypermutation: intact primary mechanism accompanied by secondary modifications.

Authors:  N Kim; G Bozek; J C Lo; U Storb
Journal:  J Exp Med       Date:  1999-07-05       Impact factor: 14.307

9.  Hypermutation of immunoglobulin genes in memory B cells of DNA repair-deficient mice.

Authors:  H Jacobs; Y Fukita; G T van der Horst; J de Boer; G Weeda; J Essers; N de Wind; B P Engelward; L Samson; S Verbeek; J M de Murcia; G de Murcia; H te Riele; K Rajewsky
Journal:  J Exp Med       Date:  1998-06-01       Impact factor: 14.307

10.  The role of DNA repair in somatic hypermutation of immunoglobulin genes.

Authors:  N Kim; U Storb
Journal:  J Exp Med       Date:  1998-06-01       Impact factor: 14.307
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  15 in total

Review 1.  Somatic immunoglobulin hypermutation.

Authors:  Marilyn Diaz; Paolo Casali
Journal:  Curr Opin Immunol       Date:  2002-04       Impact factor: 7.486

2.  Negative autoregulation of BCL-6 is bypassed by genetic alterations in diffuse large B cell lymphomas.

Authors:  Xing Wang; Zhiping Li; Akira Naganuma; B Hilda Ye
Journal:  Proc Natl Acad Sci U S A       Date:  2002-10-29       Impact factor: 11.205

3.  The transcription elongation complex directs activation-induced cytidine deaminase-mediated DNA deamination.

Authors:  Eva Besmer; Eleonora Market; F Nina Papavasiliou
Journal:  Mol Cell Biol       Date:  2006-06       Impact factor: 4.272

4.  Genetic variants of NHEJ DNA ligase IV can affect the risk of developing multiple myeloma, a tumour characterised by aberrant class switch recombination.

Authors:  P L Roddam; S Rollinson; M O'Driscoll; P A Jeggo; A Jack; G J Morgan
Journal:  J Med Genet       Date:  2002-12       Impact factor: 6.318

5.  AID-initiated DNA lesions are differentially processed in distinct B cell populations.

Authors:  Zhangguo Chen; Sheila Ranganath; Sawanee S Viboolsittiseri; Maxwell D Eder; Xiaomi Chen; Mihret T Elos; Shunzong Yuan; Shunzhong Yuan; Erica Hansen; Jing H Wang
Journal:  J Immunol       Date:  2014-10-22       Impact factor: 5.422

Review 6.  AID targeting: old mysteries and new challenges.

Authors:  Vivek Chandra; Alexandra Bortnick; Cornelis Murre
Journal:  Trends Immunol       Date:  2015-08-04       Impact factor: 16.687

Review 7.  Generation and repair of AID-initiated DNA lesions in B lymphocytes.

Authors:  Zhangguo Chen; Jing H Wang
Journal:  Front Med       Date:  2014-04-21       Impact factor: 4.592

8.  AID-dependent generation of resected double-strand DNA breaks and recruitment of Rad52/Rad51 in somatic hypermutation.

Authors:  Hong Zan; Xiaoping Wu; Atsumasa Komori; William K Holloman; Paolo Casali
Journal:  Immunity       Date:  2003-06       Impact factor: 31.745

Review 9.  Post-translational regulation of activation-induced cytidine deaminase.

Authors:  Uttiya Basu; Andrew Franklin; Frederick W Alt
Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2009-03-12       Impact factor: 6.237

10.  Attracting AID to targets of somatic hypermutation.

Authors:  Atsushi Tanaka; Hong Ming Shen; Sarayu Ratnam; Prashant Kodgire; Ursula Storb
Journal:  J Exp Med       Date:  2010-01-25       Impact factor: 14.307
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