Maize HD-Zip II proteins function as transcriptional repressors and ATHB17Δ113 relieves the repression caused by endogenous maize HD-Zip II proteins.
Elena A. Rice
Abha Khandelwal
Robert A. Creelman
Cara Griffith
Jeffrey E. Ahrens
J. Philip Taylor
Lesley R. Murphy
Siva Manjunath
Rebecca L. Thompson
Matthew J. Lingard
Stephanie L. Back
Huachun Larue
Bonnie R. Brayton
Amanda J. Burek
Shiv Tiwari
Luc Adam
James A. Morrell
Rico A. Caldo
Qing Huai
Jean-Louis K. Kouadio
Rosemarie Kuehn
Anagha M. Sant
William J. Wingbermuehle
Rodrigo Sala
Matt Foster
Josh D. Kinser
Radha Mohanty
Dongming Jiang
Todd E. Ziegler
Mingya G. Huang
Saritha V. Kuriakose
Kyle Skottke
Peter P. Repetti
T. Lynne Reuber
Thomas G. Ruff
Marie E. Petracek
Paul J. Loida
10.1371/journal.pone.0094238.g008
https://plos.figshare.com/articles/figure/_Maize_HD_Zip_II_proteins_function_as_transcriptional_repressors_and_ATHB17_916_113_relieves_the_repression_caused_by_endogenous_maize_HD_Zip_II_proteins_/1000562
<p>(A) Cells were co-transformed with 4 µg/320,000 cells of each reporter (right side label) and an increasing amount of each HD-Zip II family member (left-to-right for each color: 0.008; 0.04; 0.2; 1; 5 µg/320,000 cells). Error bars are 1 SD. (B) Cells were triple-transformed with 4 µg/320,000 cells of each reporter (right side label), 20 ng of each HD-Zip family member and an increasing amount of ATHB17Δ113 (left-to-right for each color: 0.0, 0.3; 0.6; 1.3; 2.5 µg/320,000 cells). For a given reporter, HD-Zip II, and concentration of ATHB17Δ113, the calculation of standard error relies on the number of biological replicates and the estimated error variance derived from a one-way ANOVA.</p>
2014-04-15 04:30:42
agriculture
Agricultural biotechnology
Genetically modified organisms
Transgenic plants
crops
Cereal crops
maize
biotechnology
Genetic engineering
Transgenic engineering
Plant biotechnology
cell biology
Molecular cell biology
genetics
gene expression
Plant genetics
Plant science
hd-zip
ii
proteins
transcriptional
repressors
relieves
repression
caused
endogenous