Christopher W. Lawrence scite author profile

Letter to the Editor Letter to the Editor amino acid sequence identity and similarity amongst them-The Y-Family of DNA Polymerases UmuC/DinB/Rev1/Rad30 DNA polymerases be referred ESBS Boulevard S. Brant to as the "Y-family" of DNA polymerases.Phylogenetic analysis of the Y-family of DNA poly-67400 Strasbourg France merases reveals several branches to an unrooted tree (Figure 1). Interestingly, not all branches are evenly dis-

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Thymine-Thymine Dimer Bypass by Yeast DNA Polymerase ζ

Nelson

Lawrence

Hinkle

1996

Science

626

531

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The REV3 and REV7 genes of the yeast Saccharomyces cerevisiae are required for DNA damage-induced mutagenesis. The Rev3 and Rev7 proteins were shown to form a complex with DNA polymerase activity. This polymerase replicated past a thymine-thymine cis-syn cyclobutane dimer, a lesion that normally severely inhibits replication, with an efficiency of approximately 10 percent. In contrast, bypass replication efficiency with yeast DNA polymerase alpha was no more than 1 percent. The Rev3-Rev7 complex is the sixth eukaryotic DNA polymerase to be described, and is therefore called DNA polymerase zeta.

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Deoxycytidyl transferase activity of yeast REV1 protein

Nelson

Lawrence

Hinkle

1996

Nature

533

487

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Mutagenesis induced by DNA damage in Saccharomyces cerevisiae requires the products of the REV1, REV3 and REV7 genes. The Rev3 and Rev7 proteins are subunits of DNA polymerase-zeta (Pol-zeta), an enzyme whose sole function appears to be translesion synthesis. Rev1 protein has weak homology with UmuC protein which facilitates translesion synthesis in Escherichia coli by an unknown mechanism. We show here that Rev1 protein has a deoxycytidyl transferase activity which transfers a dCMP residue from dCTP to the 3' end of a DNA primer in a template-dependent reaction. Efficient transfer occurred opposite a template abasic site, but approximately 20% transfer also occurred opposite a template guanine and approximately 10% opposite adenine or uracil; < or = 1% was seen opposite thymine or cytosine. Insertion of cytosine opposite an abasic site produced a terminus that was extended efficiently by Pol-zeta, but not by yeast Pol-alpha.

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Activation, Differentiation, and Migration of Naive Virus-Specific CD8+ T Cells during Pulmonary Influenza Virus Infection

2004

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The low precursor frequency of individual virus-specific CD8+ T cells in a naive host makes the early events of CD8+ T cell activation, proliferation, and differentiation in response to viral infection a challenge to identify. We have therefore examined the response of naive CD8+ T cells to pulmonary influenza virus infection with a murine adoptive transfer model using hemagglutinin-specific TCR transgenic CD8+ T cells. Initial activation of CD8+ T cells occurs during the first 3 days postinfection exclusively within the draining lymph nodes. Acquisition of CTL effector functions, including effector cytokine and granule-associated protease expression, occurs in the draining lymph nodes and differentially correlates with cell division. Division of activated CD8+ T cells within the draining lymph nodes occurs in an asynchronous manner between days 3 and 4 postinfection. Despite the presence of Ag for several days within the draining lymph nodes, dividing T cells do not appear to maintain contact with residual Ag. After multiple cell divisions, CD8+ T cells exit the draining lymph nodes and migrate to the infected lung. Activated CD8+ T cells also disseminate throughout lymphoid tissue including the spleen and distal lymph nodes following their emigration from draining lymph nodes. These results demonstrate an important role for draining lymph nodes in orchestrating T cell responses during a local infection of a discrete organ to generate effector CD8+ T cells capable of responding to infection and seeding peripheral lymphoid tissues.

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