Root phosphoenolpyruvate carboxylase activity is essential for Sorghum bicolor tolerance to ammonium nutrition.
Marín-Peña AJ, Vega-Mas I, Busturia I, de la Osa C, González-Moro MB, Monreal JA, Marino D
Published: 29 December 2023
in Plant physiology and biochemistry : PPB
Details
C4 maize and sorghum are more sensitive to rapid dehydration than C3 wheat and sunflower.
Bellasio C, Stuart-Williams H, Farquhar GD, Flexas J
Published: 10 October 2023
in The New phytologist
Details
Environment Characterization in Sorghum (Sorghum bicolor L.) by Modeling Water-Deficit and Heat Patterns in the Great Plains Region, United States.
Carcedo AJP, Mayor L, Demarco P, Morris GP, Lingenfelser J, Messina CD, Ciampitti IA
Published: 22 March 2022
in Frontiers in plant science
Details
Transcriptome analysis of drought-tolerant sorghum genotype SC56 in response to water stress reveals an oxidative stress defense strategy.
Azzouz-Olden F, Hunt AG, Dinkins R
Published: 19 April 2020
in Molecular biology reports
Details
Metabolomics of sorghum roots during nitrogen stress reveals compromised metabolic capacity for salicylic acid biosynthesis.
Sheflin AM, Chiniquy D, Yuan C, Goren E, Kumar I, Braud M, Brutnell T, Eveland AL, Tringe S, Liu P, Kresovich S, Marsh EL, Schachtman DP, Prenni JE
Published: 28 June 2019
in Plant direct
Details