Patrick S Schnable

Overview

Explore the profile of Patrick S Schnable including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 184

Citations 8877

Followers 0

Related Specialties

Biology

Genetics

Molecular Biology

Top 10 Co-Authors

Cheng-Ting Yeh

Sanzhen Liu

Dan Nettleton

Nathan M Springer

Michael J Scanlon

James C Schnable

Jianming Yu

Marja C P Timmermans

Frank Hochholdinger

Yan Fu

Published In

Plant Physiol

Genetics

Plant J

PLoS Genet

Genome Biol

Affiliations

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Recent Articles

Moisture-responsive root-branching pathways identified in diverse maize breeding germplasm

Scharwies J, Clarke T, Zheng Z, Dinneny A, Birkeland S, Veltman M, et al.

Science . 2025 Feb; 387(6734):666-673. PMID: 39913586

Plants grow complex root systems to extract unevenly distributed resources from soils. Spatial differences in soil moisture are perceived by root tips, leading to the patterning of new root branches...

Phenological Adaptation Is Insufficient to Offset Climate Change-Induced Yield Losses in US Hybrid Maize

Kusmec A, Schnable P

Glob Chang Biol . 2024 Oct; 30(10):e17539. PMID: 39434407

Climate change is projected to decrease maize yields due to warmer temperatures and their consequences. Studies using crop growth models (CGMs), however, have predicted that, through a combination of alterations...

Data-driven identification of environmental variables influencing phenotypic plasticity to facilitate breeding for future climates

Kusmec A, Yeh C, Schnable P

New Phytol . 2024 Aug; 244(2):618-634. PMID: 39183371

Phenotypic plasticity describes a genotype's ability to produce different phenotypes in response to different environments. Breeding crops that exhibit appropriate levels of plasticity for future climates will be crucial to...

TWAS facilitates gene-scale trait genetic dissection through gene expression, structural variations, and alternative splicing in soybean

Li D, Wang Q, Tian Y, Lyv X, Zhang H, Hong H, et al.

Plant Commun . 2024 Jun; 5(10):101010. PMID: 38918950

A genome-wide association study (GWAS) identifies trait-associated loci, but identifying the causal genes can be a bottleneck, due in part to slow decay of linkage disequilibrium (LD). A transcriptome-wide association...

ZmPTOX1, a plastid terminal oxidase, contributes to redox homeostasis during seed development and germination

Peng Y, Liang Z, Cai M, Wang J, Li D, Chen Q, et al.

Plant J . 2024 Apr; 119(1):460-477. PMID: 38678554

Maize plastid terminal oxidase1 (ZmPTOX1) plays a pivotal role in seed development by upholding redox balance within seed plastids. This study focuses on characterizing the white kernel mutant 3735 (wk3735)...

Genetic regulation of self-organizing azimuthal canopy orientations and their impacts on light interception in maize

Zhou Y, Kusmec A, Schnable P

Plant Cell . 2024 Jan; 36(5):1600-1621. PMID: 38252634

The efficiency of solar radiation interception contributes to the photosynthetic efficiency of crop plants. Light interception is a function of canopy architecture, including plant density; leaf number, length, width, and...

Current challenges and future of agricultural genomes to phenomes in the USA

Tuggle C, Clarke J, Murdoch B, Lyons E, Scott N, Benes B, et al.

Genome Biol . 2024 Jan; 25(1):8. PMID: 38172911

Dramatic improvements in measuring genetic variation across agriculturally relevant populations (genomics) must be matched by improvements in identifying and measuring relevant trait variation in such populations across many environments (phenomics)....

A genetic tradeoff for tolerance to moderate and severe heat stress in US hybrid maize

Kusmec A, Attigala L, Dai X, Srinivasan S, Yeh C, Schnable P

PLoS Genet . 2023 Jul; 19(7):e1010799. PMID: 37410701

Global climate change is increasing both average temperatures and the frequencies of extreme high temperatures. Past studies have documented a strong negative effect of exposures to temperatures >30°C on hybrid...

High-Throughput Field Plant Phenotyping: A Self-Supervised Sequential CNN Method to Segment Overlapping Plants

Guo X, Qiu Y, Nettleton D, Schnable P

Plant Phenomics . 2023 May; 5:0052. PMID: 37213545

High-throughput plant phenotyping-the use of imaging and remote sensing to record plant growth dynamics-is becoming more widely used. The first step in this process is typically plant segmentation, which requires...

10.

The 2020 derecho revealed limited overlap between maize genes associated with root lodging and root system architecture

Zheng Z, Guo B, Dutta S, Roy V, Liu H, Schnable P

Plant Physiol . 2023 Mar; 192(3):2394-2403. PMID: 36974884

Roots anchor plants in soil, and the failure of anchorage (i.e. root lodging) is a major cause of crop yield loss. Anchorage is often assumed to be driven by root...