Increased power to dissect adaptive traits in global sorghum diversity using a nested association mapping population S Bouchet, MO Olatoye, SR Marla, R Perumal, T Tesso, J Yu, M Tuinstra, ... Genetics 206 (2), 573-585, 2017 | 155 | 2017 |
Field-based high-throughput phenotyping of plant height in sorghum using different sensing technologies X Wang, D Singh, S Marla, G Morris, J Poland Plant Methods 14, 1-16, 2018 | 129 | 2018 |
An integrated genotyping‐by‐sequencing polymorphism map for over 10,000 sorghum genotypes Z Hu, MO Olatoye, S Marla, GP Morris The Plant Genome 12 (1), 180044, 2019 | 76 | 2019 |
A genome-wide association study of the maize hypersensitive defense response identifies genes that cluster in related pathways BA Olukolu, GF Wang, V Vontimitta, BP Venkata, S Marla, J Ji, ... PLoS Genetics 10 (8), e1004562, 2014 | 73 | 2014 |
Genome‐wide association study of developing leaves' heat tolerance during vegetative growth stages in a sorghum association panel J Chen, R Chopra, C Hayes, G Morris, S Marla, J Burke, Z Xin, G Burow The plant genome 10 (2), plantgenome2016.09.0091, 2017 | 67 | 2017 |
A connected set of genes associated with programmed cell death implicated in controlling the hypersensitive response in maize BA Olukolu, A Negeri, R Dhawan, BP Venkata, P Sharma, A Garg, ... Genetics 193 (2), 609-620, 2013 | 57 | 2013 |
Genetic Architecture of Chilling Tolerance in Sorghum Dissected with a Nested Association Mapping Population SR Marla, G Burow, R Chopra, C Hayes, M Olatoye, T Felderhoff, Z Hu, ... G3: Genes, Genomes, Genetics 9 (12), 4045-4057, 2019 | 40 | 2019 |
Comparative transcriptome and lipidome analyses reveal molecular chilling responses in chilling‐tolerant sorghums SR Marla, S Shiva, R Welti, S Liu, JJ Burke, GP Morris The Plant Genome 10 (3), plantgenome2017.03.0025, 2017 | 37 | 2017 |
Population genomics of sorghum (Sorghum bicolor) across diverse agroclimatic zones of Niger F Maina, S Bouchet, SR Marla, Z Hu, J Wang, A Mamadou, M Abdou, ... Genome 61 (4), 223-232, 2018 | 30 | 2018 |
CRISPR guides induce gene silencing in plants in the absence of Cas VK Sharma, S Marla, W Zheng, D Mishra, J Huang, W Zhang, GP Morris, ... Genome Biology 23, 1-24, 2022 | 27 | 2022 |
Evaluation of Crotalaria juncea populations as hosts and antagonistic crops to manage Meloidogyne incognita and Rotylenchulus reniformis SR Marla, RN Huettel, J Mosjidis Nematropica, 155-162, 2008 | 25 | 2008 |
Adult plant resistance in maize to northern leaf spot is a feature of partial loss-of-function alleles of Hm1 SR Marla, K Chu, S Chintamanani, DS Multani, A Klempien, A DeLeon, ... PLOS Pathogens, 1-24, 2018 | 22 | 2018 |
Dissecting adaptive traits with nested association mapping: genetic architecture of inflorescence morphology in sorghum MO Olatoye, SR Marla, Z Hu, S Bouchet, R Perumal, GP Morris G3: Genes, Genomes, Genetics 10 (5), 1785-1796, 2020 | 16 | 2020 |
A genomics resource for genetics, physiology, and breeding of West African sorghum JM Faye, F Maina, EA Akata, B Sine, C Diatta, A Mamadou, S Marla, ... The Plant Genome 14 (2), e20075, 2021 | 15 | 2021 |
A Very Oil Yellow1 Modifier of the Oil Yellow1-N1989 Allele Uncovers a Cryptic Phenotypic Impact of Cis -regulatory Variation in Maize RS Khangura, S Marla, BP Venkata, NJ Heller, BP Dilkes G3 Genes | Genomes | Genetics, 2018 | 11 | 2018 |
An integrated genotyping-by-sequencing polymorphism map for over 10,000 sorghum genotypes. Plant Genome 12 Z Hu, MO Olatoye, S Marla, GP Morris | 7 | 2019 |
Interaction Between Induced and Natural Variation at oil yellow1 Delays Reproductive Maturity in Maize RS Khangura, BP Venkata, SR Marla, MV Mickelbart, S Dhungana, ... G3: Genes, Genomes, Genetics 10 (2), 797-810, 2020 | 4 | 2020 |
Genomics and phenomics enabled prebreeding improved early-season chilling tolerance in Sorghum S Marla, T Felderhoff, C Hayes, R Perumal, X Wang, J Poland, GP Morris G3: Genes, Genomes, Genetics 13 (8), jkad116, 2023 | 2 | 2023 |
Cloning of economically significant sorghum mutant genes SR Marla The sorghum genome, 243-255, 2016 | 2 | 2016 |
RNA silencing by CRISPR in plants does not require Cas13 V Sharma, SR Marla, W Zheng, D Mishra, J Huang, W Zhang, GP Morris, ... bioRxiv, 2021 | 1 | 2021 |