Gary S. Shapiro scite author profile

The widely accepted model of G1 cell cycle progression proposes that cyclin D:Cdk4/6 inactivates the Rb tumor suppressor during early G1 phase by progressive multi-phosphorylation, termed hypo-phosphorylation, to release E2F transcription factors. However, this model remains unproven biochemically and the biologically active form(s) of Rb remains unknown. In this study, we find that Rb is exclusively mono-phosphorylated in early G1 phase by cyclin D:Cdk4/6. Mono-phosphorylated Rb is composed of 14 independent isoforms that are all targeted by the E1a oncoprotein, but show preferential E2F binding patterns. At the late G1 Restriction Point, cyclin E:Cdk2 inactivates Rb by quantum hyper-phosphorylation. Cells undergoing a DNA damage response activate cyclin D:Cdk4/6 to generate mono-phosphorylated Rb that regulates global transcription, whereas cells undergoing differentiation utilize un-phosphorylated Rb. These observations fundamentally change our understanding of G1 cell cycle progression and show that mono-phosphorylated Rb, generated by cyclin D:Cdk4/6, is the only Rb isoform in early G1 phase.DOI: http://dx.doi.org/10.7554/eLife.02872.001

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Vascularity of the hip labrum: A cadaveric investigation

Kelly

Shapiro

DiGiovanni

et al. 2005

Arthroscopy: The Journal of Arthroscopic & Related Surgery

176

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The use of a constrained acetabular component for recurrent dislocation

Shapiro

Weiland

Markel

et al. 2003

The Journal of Arthroplasty

113

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Evolution of Ig DNA Sequence to Target Specific Base Positions Within Codons for Somatic Hypermutation

Shapiro

Aviszus

Murphy

et al. 2002

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Ig variable (V) region genes are subjected to a somatic hypermutation process as B lymphocytes participate in immune reactions to protein Ags. Although little is known regarding the mechanism of mutagenesis, a consistent hierarchy of trinucleotide target preferences is evident. Analysis of trinucleotide regional distributions predicted and we now empirically confirm the surprising finding that the framework 2 region of κ V region genes is highly mutable despite its importance to the structural integrity and function of the Ab molecule. Interestingly, much of this mutability appears to be focused on the third codon position where synonymous substitutions are most likely to occur. We also observed a trend for high predicted mutability for codon positions 1 and 2 in complementarity-determining regions. Consequently, amino acid replacements should occur at a higher rate in complementarity-determining regions than in framework regions due to the distribution and subsequent targeting of microsequences by the mutation mechanism. Our results reveal a subtle tier of V region gene evolution in which DNA sequence has been molded to direct mutations to specific base positions within codons in a manner that minimizes damage and maximizes the benefits of the somatic hypermutation process.

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Gary S. Shapiro

Cyclin D activates the Rb tumor suppressor by mono-phosphorylation

Vascularity of the hip labrum: A cadaveric investigation

The use of a constrained acetabular component for recurrent dislocation

Evolution of Ig DNA Sequence to Target Specific Base Positions Within Codons for Somatic Hypermutation

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