<mods:mods version="3.3" xsi:schemaLocation="http://www.loc.gov/mods/v3 http://www.loc.gov/standards/mods/v3/mods-3-3.xsd" xmlns:mods="http://www.loc.gov/mods/v3" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"><mods:titleInfo><mods:title>Arachis hypogaea gene expression atlas for fastigiata subspecies of cultivated groundnut to accelerate functional and translational genomics applications</mods:title></mods:titleInfo><mods:name type="personal"><mods:namePart type="given">P</mods:namePart><mods:namePart type="family">Sinha</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:name type="personal"><mods:namePart type="given">P</mods:namePart><mods:namePart type="family">Bajaj</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:name type="personal"><mods:namePart type="given">L T</mods:namePart><mods:namePart type="family">Pazhamala</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:name type="personal"><mods:namePart type="given">S N</mods:namePart><mods:namePart type="family">Nayak</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:name type="personal"><mods:namePart type="given">M K</mods:namePart><mods:namePart type="family">Pandey</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:name type="personal"><mods:namePart type="given">A</mods:namePart><mods:namePart type="family">Chitikineni</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:name type="personal"><mods:namePart type="given">D</mods:namePart><mods:namePart type="family">Huai</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:name type="personal"><mods:namePart type="given">A W</mods:namePart><mods:namePart type="family">Khan</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:name type="personal"><mods:namePart type="given">A</mods:namePart><mods:namePart type="family">Desai</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:name type="personal"><mods:namePart type="given">H</mods:namePart><mods:namePart type="family">Jiang</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:name type="personal"><mods:namePart type="given">W</mods:namePart><mods:namePart type="family">Zhuang</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:name type="personal"><mods:namePart type="given">B</mods:namePart><mods:namePart type="family">Guo</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:name type="personal"><mods:namePart type="given">B</mods:namePart><mods:namePart type="family">Liao</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:name type="personal"><mods:namePart type="given">R K</mods:namePart><mods:namePart type="family">Varshney</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:abstract>Spatio-temporal and developmental stage-specific transcriptome analysis plays a crucial role in&#13;
systems biology-based improvement of any species. In this context, we report here the Arachis&#13;
hypogaea gene expression atlas (AhGEA) for the world’s widest cultivated subsp. fastigiata based&#13;
on RNA-seq data using 20 diverse tissues across five key developmental stages. Approximately&#13;
480 million paired-end filtered reads were generated followed by identification of 81 901&#13;
transcripts from an early-maturing, high-yielding, drought-tolerant groundnut variety, ICGV&#13;
91114. Further, 57 344 genome-wide transcripts were identified with ≥1 FPKM across different&#13;
tissues and stages. Our in-depth analysis of the global transcriptome sheds light into complex&#13;
regulatory networks namely gravitropism and photomorphogenesis, seed development, allergens&#13;
and oil biosynthesis in groundnut. Importantly, interesting insights into molecular basis of&#13;
seed development and nodulation have immense potential for translational genomics research.&#13;
We have also identified a set of stable expressing transcripts across the selected tissues, which&#13;
could be utilized as internal controls in groundnut functional genomics studies. The AhGEA&#13;
revealed potential transcripts associated with allergens, which upon appropriate validation could&#13;
be deployed in the coming years to develop consumer-friendly groundnut varieties. Taken&#13;
together, the AhGEA touches upon various important and key features of cultivated groundnut&#13;
and provides a reference for further functional, comparative and translational genomics research&#13;
for various economically important traits.</mods:abstract><mods:classification authority="lcc">Smallholder Farmers</mods:classification><mods:classification authority="lcc">Livelihoods</mods:classification><mods:classification authority="lcc">Groundnut</mods:classification><mods:classification authority="lcc">Oilseeds</mods:classification><mods:classification authority="lcc">Genetics and Genomics</mods:classification><mods:classification authority="lcc">Food and Nutrition</mods:classification><mods:classification authority="lcc">Legume Crops</mods:classification><mods:originInfo><mods:dateIssued encoding="iso8061">2020-04</mods:dateIssued></mods:originInfo><mods:originInfo><mods:publisher>Wiley Open Access</mods:publisher></mods:originInfo><mods:genre>Article</mods:genre></mods:mods>