Neelima Sinha
Neelima Sinha
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The developmental gene Knotted-1 is a member of a maize homeobox gene family
E Vollbrecht, B Veit, N Sinha, S Hake
Nature 350 (6315), 241-243, 1991
Overexpression of the maize homeo box gene, KNOTTED-1, causes a switch from determinate to indeterminate cell fates.
NR Sinha, RE Williams, S Hake
Genes & Development 7 (5), 787-795, 1993
Homologies in leaf form inferred from KNOXI gene expression during development
G Bharathan, TE Goliber, C Moore, S Kessler, T Pham, NR Sinha
Science 296 (5574), 1858-1860, 2002
The genome of the stress-tolerant wild tomato species Solanum pennellii
A Bolger, F Scossa, ME Bolger, C Lanz, F Maumus, T Tohge, ...
Nature genetics 46 (9), 1034-1038, 2014
Developmental changes due to long-distance movement of a homeobox fusion transcript in tomato
M Kim, W Canio, S Kessler, N Sinha
Science 293 (5528), 287-289, 2001
Comparative transcriptomics reveals patterns of selection in domesticated and wild tomato
D Koenig, JM Jiménez-Gómez, S Kimura, D Fulop, DH Chitwood, ...
Proceedings of the National Academy of Sciences 110 (28), E2655-E2662, 2013
Hairy Root Transformation Using Agrobacterium rhizogenes as a Tool for Exploring Cell Type-Specific Gene Expression and Function Using Tomato as a Model
M Ron, K Kajala, G Pauluzzi, D Wang, MA Reynoso, K Zumstein, ...
Plant physiology 166 (2), 455-469, 2014
Tomato (Solanum lycopersicum): a model fruit-bearing crop
S Kimura, N Sinha
Cold Spring Harbor Protocols 2008 (11), pdb. emo105, 2008
WOX4 promotes procambial development
J Ji, J Strable, R Shimizu, D Koenig, N Sinha, MJ Scanlon
Plant physiology 152 (3), 1346-1356, 2010
A gene fusion at a homeobox locus: alterations in leaf shape and implications for morphological evolution.
JJ Chen, BJ Janssen, A Williams, N Sinha
The Plant Cell 9 (8), 1289-1304, 1997
Profiling of accessible chromatin regions across multiple plant species and cell types reveals common gene regulatory principles and new control modules
KA Maher, M Bajic, K Kajala, M Reynoso, G Pauluzzi, DA West, ...
The Plant Cell 30 (1), 15-36, 2018
A modern ampelography: a genetic basis for leaf shape and venation patterning in grape
DH Chitwood, A Ranjan, CC Martinez, LR Headland, T Thiem, R Kumar, ...
Plant physiology 164 (1), 259-272, 2014
Auxin patterns Solanum lycopersicum leaf morphogenesis
D Koenig, E Bayer, J Kang, C Kuhlemeier, N Sinha
Development 136 (17), 2997-3006, 2009
Overexpression of a homeobox gene, LeT6, reveals indeterminate features in the tomato compound leaf
BJ Janssen, L Lund, N Sinha
Plant physiology 117 (3), 771-786, 1998
A quantitative genetic basis for leaf morphology in a set of precisely defined tomato introgression lines
DH Chitwood, R Kumar, LR Headland, A Ranjan, MF Covington, ...
The Plant Cell 25 (7), 2465-2481, 2013
Natural variation in leaf morphology results from mutation of a novel KNOX gene
S Kimura, D Koenig, J Kang, FY Yoong, N Sinha
Current Biology 18 (9), 672-677, 2008
Domestication selected for deceleration of the circadian clock in cultivated tomato
NA Müller, CL Wijnen, A Srinivasan, M Ryngajllo, I Ofner, T Lin, A Ranjan, ...
Nature genetics 48 (1), 89-93, 2016
Compound leaf development and evolution in the legumes
CEM Champagne, TE Goliber, MF Wojciechowski, RW Mei, BT Townsley, ...
The Plant Cell 19 (11), 3369-3378, 2007
Evolutionary and environmental forces sculpting leaf development
DH Chitwood, NR Sinha
Current Biology 26 (7), R297-R306, 2016
A high-throughput method for Illumina RNA-Seq library preparation
R Kumar, Y Ichihashi, S Kimura, DH Chitwood, LR Headland, J Peng, ...
Frontiers in plant science 3, 202, 2012
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