Richard S. Mann

Affiliations: 
Biochemistry and Molecular Biophysics Columbia University, New York, NY 
 Biochemistry Stanford University, Palo Alto, CA 
Area:
Drosophila development, Hox genes, appendages
Website:
http://cpmcnet.columbia.edu/dept/gsas/biochem/labs/mann/
Google:
"Richard Mann"
Mean distance: 13.81 (cluster 11)
 
SNBCP
Cross-listing: FlyTree

Parents

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David Baltimore grad student 1980-1986 MIT (Chemistry Tree)
David S. Hogness post-doc 1986-1990 Stanford School of Medicine (FlyTree)

Children

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Lalanti Venkatasubramanian grad student Columbia University Medical School (FlyTree)
Paul Feinstein grad student 1990-1996 Columbia
Gabrielle Rieckhof grad student 1993-1999 Columbia
Hyung-Don Ryoo grad student 1995-2000 Columbia
Jill C. Wildonger grad student 1998-2005 Columbia
Katherine E. Stevens grad student 2006 Columbia (FlyTree)
Jonathan D. Zirin grad student 2001-2006 Columbia
Barbara Noro grad student 2000-2008 Columbia
Michael A. Crickmore grad student 2001-2008 Columbia
Daniel J. McKay grad student 2003-2008 Columbia
Hsien-wei Peng grad student 2009 Columbia (FlyTree)
Myungin Baek grad student 2003-2011 Columbia
Katherine M. Lelli grad student 2012 Columbia (FlyTree)
Vikram Ranade grad student 2013 Columbia (FlyTree)
Susan Newcomb grad student 2012-2018 Columbia (FlyTree)
Matthew Slattery post-doc Columbia University Medical School (FlyTree)
Fernando Casares post-doc 1997-2001 Columbia University Medical School
Zhaohui Wang post-doc 1998-2003 Columbia
Brian Gebelein post-doc 2001-2005 Columbia
Joaquim Culi post-doc 2002-2006 Columbia
Carlos Estella post-doc 2004-2010 Columbia
Rohit Joshi post-doc 2005-2010 Biochemistry and Molecular Biophysics
BETA: Related publications

Publications

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Venkatasubramanian L, Mann RS. (2019) The development and assembly of the Drosophila adult ventral nerve cord. Current Opinion in Neurobiology. 56: 135-143
Venkatasubramanian L, Guo Z, Xu S, et al. (2019) Stereotyped terminal axon branching of leg motor neurons mediated by IgSF proteins DIP-α and Dpr10. Elife. 8
Voutev R, Mann RS. (2019) TP901-1 Phage Recombinase Facilitates Genome Engineering in . G3 (Bethesda, Md.)
Guan W, Venkatasubramanian L, Baek M, et al. (2018) Visualize Drosophila Leg Motor Neuron Axons Through the Adult Cuticle. Journal of Visualized Experiments : Jove
Zeiske T, Baburajendran N, Kaczynska A, et al. (2018) Intrinsic DNA Shape Accounts for Affinity Differences between Hox-Cofactor Binding Sites. Cell Reports. 24: 2221-2230
Newcomb S, Voutev R, Jory A, et al. (2018) cis-regulatory architecture of a short-range EGFR organizing center in the Drosophila melanogaster leg. Plos Genetics. 14: e1007568
Rastogi C, Rube HT, Kribelbauer JF, et al. (2018) Accurate and sensitive quantification of protein-DNA binding affinity. Proceedings of the National Academy of Sciences of the United States of America
Voutev R, Mann RS. (2018) Robust ΦC31-Mediated Genome Engineering inUsing Minimal attP/attB Phage Sites. G3 (Bethesda, Md.)
Rao S, Chiu TP, Kribelbauer JF, et al. (2018) Systematic prediction of DNA shape changes due to CpG methylation explains epigenetic effects on protein-DNA binding. Epigenetics & Chromatin. 11: 6
Enriquez J, Rio LQ, Blazeski R, et al. (2018) Differing Strategies Despite Shared Lineages of Motor Neurons and Glia to Achieve Robust Development of an Adult Neuropil in Drosophila. Neuron
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