diff --git a/JSchnable.tex b/JSchnable.tex index e1c18239d2f53475ab717714f47a72f255f49993..44449e8a49282c323706d6ff944175d3f866561a 100644 --- a/JSchnable.tex +++ b/JSchnable.tex @@ -286,17 +286,15 @@ Lab members in \textbf{bold}, $^*$authors contributed equally, $^\ddagger$underg \begin{etaremune} \subsection*{Faculty Publications} -\item Wang R, Qiu Y,$^\S$ Zhou Y, \textbf{Schnable JC} A high-throughput phenotyping pipeline for image processing and functional growth curve analysis. \textsc{Plant Phenomics} \textit{(Accepted)} - -\item Han J, Wang P, Wang Q, Lin Q, Yu G, \textbf{Miao C}, Dao Y, Wu R, \textbf{Schnable JC}, Tang H, Wang K$^\S$ Genome-wide characterization of DNase I-hypersensitive sites and cold response regulatory landscapes in grasses. \textsc{The Plant Cell} \textit{(Accepted)} +\item Han J, Wang P, Wang Q, Lin Q, Yu G, \textbf{Miao C}, Dao Y, Wu R, \textbf{Schnable JC}, Tang H, Wang K$^\S$ (2020) Genome-wide characterization of DNase I-hypersensitive sites and cold response regulatory landscapes in grasses. \textsc{The Plant Cell} \textit{(Accepted)} \item Wang R, Qiu Y,$^\S$ Zhou Y, \textbf{Schnable JC} (2020) A high-throughput phenotyping pipeline for image processing and functional growth curve analysis. \textsc{Plant Phenomics} \textit{(Accepted)} -\item \textbf{Miao C}, Xu Y, Liu S, Schnable PS, \textbf{Schnable JC}$^\S$ (2020) Functional principal component based time-series genome-wide association in sorghum. \textsc{Plant Physiology} \textit{(Accepted)} \textsc{bioRxiv} doi: \href{https://doi.org/10.1101/2020.02.16.951467}{10.1101/2020.02.16.951467} +\item \textbf{Miao C}, Xu Y, Liu S, Schnable PS, \textbf{Schnable JC}$^\S$ (2020) Functional principal component based time-series genome-wide association in sorghum. \textsc{Plant Physiology} doi: \href{https://doi.org/10.1104/pp.20.00277}{10.1104/pp.20.00277} \textsc{bioRxiv} doi: \href{https://doi.org/10.1101/2020.02.16.951467}{10.1101/2020.02.16.951467} \item \textbf{Raju SKK}, Atkins M, \textbf{Enerson A}$^\ddagger$, \textbf{Carvalho DS}, Studer AJ, Ganapathysubramanian B, Schnable PS, \textbf{Schnable JC}$^\S$ (2020) Leaf Angle eXtractor - A high throughput image processing framework for leaf angle measurement in maize and sorghum. \textsc{Applications in Plant Sciences} \textit{(Accepted)} -\item \textbf{Dai X}, Xu Z, \textbf{Liang Z}, Tu X, Zhong S, \textbf{Schnable JC}$^\S$, Li P$^\S$ (2020) Non-homology based prediction of gene functions. \textsc{The Plant Genome} \textit{(Accepted)} \textsc{bioRxiv} doi: \href{https://doi.org/10.1101/730473}{10.1101/730473} +\item \textbf{Dai X}, Xu Z, \textbf{Liang Z}, Tu X, Zhong S, \textbf{Schnable JC}$^\S$, Li P$^\S$ (2020) Non-homology based prediction of gene functions. \textsc{The Plant Genome} doi: \href{https://doi.org/10.1002/tpg2.20015}{10.1002/tpg2.20015} \textsc{bioRxiv} doi: \href{https://doi.org/10.1101/730473}{10.1101/730473} \item Peng B, Guan K$^\S$, Ainsworth EA, Asseng S, Bernacchi CJ, Cooper M, Delucia EH, Elliot JW, Ewert F, Grant RF, Gustafson DI, Hammer GL, Jin Z, Jones JW, Kimm H, Lawrence DM, Li Y, Lombardozzi DL, Marshall-Colon A, Messina CD, Ort DR, \textbf{Schnable JC}, Tang J, Vallejos CE, Wu A, Yin X, Zhou W (2020) Advancing multi-scale crop modeling for agricultural climate change adaptation assessment. \textsc{Nature Plants} doi: \href{https://t.co/rl4ywzzDhy?amp=1}{10.1038/s41477-020-0625-3}