Brian A McKinley
Overview
Explore the profile of Brian A McKinley including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
11
Citations
105
Followers
0
Related Specialties
Related Specialties
Top 10 Co-Authors
Top 10 Co-Authors
Published In
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
1.
Lamb A, Kurtz E, Glenn P, McKinley B, Mullet J
Front Plant Sci
. 2024 Nov;
15:1456627.
PMID: 39498396
Bioenergy sorghum's large and deep nodal root system and associated microbiome enables uptake of water and nutrients from and deposition of soil organic carbon into soil profiles, key contributors to...
2.
Cabanillas M, Dadu R, Ferrarotto R, Gule-Monroe M, Liu S, Fellman B, et al.
JAMA Oncol
. 2024 Oct;
10(12):1672-1680.
PMID: 39446377
Importance: Anaplastic thyroid carcinoma (ATC) is a rare and lethal cancer. Although progress has been made in recent years in patients with mutated BRAF tumors, those who respond initially eventually...
3.
Chemelewski R, McKinley B, Finlayson S, Mullet J
Front Plant Sci
. 2023 Nov;
14:1227859.
PMID: 37936930
Bioenergy sorghum is a drought-tolerant high-biomass C4 grass targeted for production on annual cropland marginal for food crops due primarily to abiotic constraints. To better understand the overall contribution of...
4.
McKinley B, Thakran M, Zemelis-Durfee S, Huang X, Brandizzi F, Rooney W, et al.
Front Plant Sci
. 2022 Dec;
13:1062264.
PMID: 36570942
Bioenergy sorghum hybrids are being developed with enhanced drought tolerance and high levels of stem sugars. Raffinose family oligosaccharides (RFOs) contribute to plant environmental stress tolerance, sugar storage, transport, and...
5.
Gleadow R, McKinley B, Blomstedt C, Lamb A, Moller B, Mullet J
Planta
. 2021 Nov;
254(6):119.
PMID: 34762174
Developmental and organ-specific expression of genes in dhurrin biosynthesis, bio-activation, and recycling offers dynamic metabolic responses optimizing growth and defence responses in Sorghum. Plant defence models evaluate the costs and...
6.
Kebrom T, McKinley B, Mullet J
Plant Direct
. 2020 Jul;
4(6):e00235.
PMID: 32607464
Stem internodes of bioenergy sorghum inbred R.07020 are longer at high plant density (shade) than at low plant density (control). Initially, the youngest newly-formed subapical stem internodes of shade-treated and...
7.
McKinley B, Casto A, Rooney W, Mullet J
Plant Direct
. 2019 Jun;
2(8):e00074.
PMID: 31245742
Sweet sorghums were identified that accumulate up to ~9% of their total stem dry weight as starch. Starch accumulated preferentially in stem pith parenchyma in close proximity to vascular bundles....
8.
Casto A, McKinley B, Yu K, Rooney W, Mullet J
Plant Direct
. 2019 Jun;
2(11):e00085.
PMID: 31245693
is a drought-resilient C4 grass used for production of grain, forage, sugar, and biomass. Sorghum genotypes capable of accumulating high levels of stem sucrose have solid stems that contain low...
9.
McKinley B, Olson S, Ritter K, Herb D, Karlen S, Lu F, et al.
PLoS One
. 2018 Apr;
13(4):e0195863.
PMID: 29684037
This study was conducted to document the extent and basis of compositional variation of shoot biomass of the energy Sorghum bicolor hybrid TX08001 during development under field conditions. TX08001 is...
10.
Hilley J, Weers B, Truong S, McCormick R, Mattison A, McKinley B, et al.
Sci Rep
. 2017 Jul;
7(1):4616.
PMID: 28676627
Sorghum is an important C4 grass crop grown for grain, forage, sugar, and bioenergy production. While tall, late flowering landraces are commonly grown in Africa, short early flowering varieties were...