TB1 protein, Zea mays

Known as: teosinte branched 1 protein, Zea mays, teosinte branched1 protein, Zea mays

National Institutes of Health

Papers overview

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2019

The regulatory landscape of a core maize domestication module controlling bud dormancy and growth repression

Z. Dong, Y. Xiao, +7 authors G. Chuck
Nature Communications
2019

Corpus ID: 201283364

Many domesticated crop plants have been bred for increased apical dominance, displaying greatly reduced axillary branching… Expand

2017

Six-Rowed Spike3 (VRS3) Is a Histone Demethylase That Controls Lateral Spikelet Development in Barley1[OPEN]

G. V. van Esse, A. Walla, A. Finke, M. Koornneef, A. Pecinka, M. von Korff
Plant Physiology
2017

Corpus ID: 26506959

Six-rowed spike3 (VRS3) encodes a histone demethylase that controls lateral spikelet development by activating the expression of… Expand

Highly Cited

2015

Highly Cited

2015

Evidence That the Origin of Naked Kernels During Maize Domestication Was Caused by a Single Amino Acid Substitution in tga1

Huai Wang, Anthony J. Studer, Qiong Zhao, R. Meeley, J. Doebley
Genetics
2015

Corpus ID: 14227787

teosinte glume architecture1 (tga1), a member of the SBP-box gene family of transcriptional regulators, has been identified as… Expand

2014

Genetic Dissection of a Genomic Region with Pleiotropic Effects on Domestication Traits in Maize Reveals Multiple Linked QTL

Zachary H Lemmon, J. Doebley
Genetics
2014

Corpus ID: 9298087

The domesticated crop maize and its wild progenitor, teosinte, have been used in numerous experiments to investigate the nature… Expand

2011

Female gametophyte development and double fertilization in Balsas teosinte, Zea mays subsp. parviglumis (Poaceae)

C. Wu, P. Diggle, W. Friedman
Sexual Plant Reproduction
2011

Corpus ID: 8045294

Over the course of maize evolution, domestication played a major role in the structural transition of the vegetative and… Expand

Highly Cited

2008

Highly Cited

2008

Hybridization of maize and teosinte, in mexico and guatemala and the improvement of maize

H. G. Wllkes
Economic Botany
2008

Corpus ID: 29531026

The recognition and subsequent detection of the importance of teosinte introgression in the racial diversity and heterotic gene… Expand

Highly Cited

2008

Highly Cited

2008

Positive selection and expression divergence following gene duplication in the sunflower CYCLOIDEA gene family.

M. Chapman, J. Leebens-Mack, J. Burke
Molecular biology and evolution
2008

Corpus ID: 14015772

Members of the CYCLOIDEA (CYC)/TEOSINTE-BRANCHED1 (TB1) group of transcription factors have been implicated in the evolution of… Expand

2005

Knob heterochromatin homology in maize and its relatives

E. Dennis, W. Peacock
Journal of Molecular Evolution
2005

Corpus ID: 7264801

SummaryWe have characterised the major DNA sequence component of knob heterochromatin in maize, teosinte andTripsacum. Sequence… Expand

Review

2005

Review

2005

Amazing grass: developmental genetics of maize domestication.

E. Vollbrecht, B. Sigmon
Biochemical Society transactions
2005

Corpus ID: 37642973

Crop plants were domesticated by prehistoric farmers through artificial selection to provide a means of feeding the human… Expand

Highly Cited

1997

Highly Cited

1997

Developmental analysis of teosinte glume architecture1: A key locus in the evolution of maize (Poaceae).

J. Dorweiler, J. Doebley
American journal of botany
1997

Corpus ID: 32492879

A key event in the evolution of maize from teosinte was a reduction in the cupulate fruitcase and softening of the glumes, which… Expand

TB1 protein, Zea mays

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Papers overview