Kevin A. Graves scite author profile

The switch in immunoglobulin (Ig) heavy chain class is preceded by germline transcription and then mediated by a DNA recombination event. To study germline transcription and class switch recombination we used transgenic mice with a 230-kilobase bacterial artificial chromosome that included a rearranged VDJ gene and the entire heavy chain constant region locus. In addition to several lines with intact transgenes, we identified two lines in which the heavy chain locus transgene lacked Cα and everything 3′ of it, including the regulatory elements HS3a, HS1-2, HS3b, and HS4. B cells from both lines with the truncated transgenes make abundant transgenic (Tg) VDJCμ transcripts and IgM protein. Deletion of the 3′ end of the locus results in dramatically reduced expression of both germline transcripts and switched VDJCH transcripts of the γ3, γ2b, γ2a, and ɛ genes. In addition, the transgenes lacking the 3′ end of the locus express reduced amounts of γ1 germline transcripts and 2–3% of the amount of Tg IgG1 in tissue culture compared with intact transgenes. Finally, switch recombination to γ1 is undetectable in the transgenes lacking the 3′ elements, as measured by digestion circularization–polymerase chain reaction or by the expression of VDJCγ1 transcripts.

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Identical longevity phenotypes are characterized by different patterns of gene expression and oxidative damage☆

Arking

Burde

Graves

et al. 2000

Experimental Gerontology

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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 γ1 Promoter

Dunnick

Shi

Graves

et al. 2004

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The switch (S) in H chain class is preceded by germline transcription and then mediated by a DNA recombination event. One of the impediments toward understanding the mechanism is the lack of a system in which a recombinant DNA molecule undergoes cytokine-regulated class S recombination. To study class S recombination, we used transgenic mice with a 230-kb bacterial artificial chromosome that included a rearranged VDJ gene and the entire murine H chain constant region locus. We found that both germline transcription and S recombination to the transgenic γ1 H chain gene were regulated by IL-4 like that of the endogenous genes. In mice with two or more copies of the H chain locus transgene, both germline transcripts and S recombination took place at levels comparable to those from the endogenous loci. We also prepared a version of the transgene with a 4-bp mutation in a STAT6 binding site in the γ1 promoter region. On the average, this mutation reduced germline transcription by 80%, but did not change the amount of S recombination in vitro. Among both the wild-type and mutant transgenes, we found no significant correlation between the amount of germline transcripts and the amount of S recombination. We infer that the physiologic level of germline transcription of the γ1 gene is in excess over the amount required for efficient S recombination.

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A hybrid electric/hydro storage solution for standalone photovoltaic applications in remote areas

Zhao

Graves

Wang

et al. 2012

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Kevin A. Graves

Forward and reverse selection for longevity in Drosophila is characterized by alteration of antioxidant gene expression and oxidative damage patterns☆

The 3′ end of the heavy chain constant region locus enhances germline transcription and switch recombination of the four γ genes

Identical longevity phenotypes are characterized by different patterns of gene expression and oxidative damage☆

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 γ1 Promoter

A hybrid electric/hydro storage solution for standalone photovoltaic applications in remote areas

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