Over the last 20 or so years,since the first release of the Arabidopsis genome in 2000,scientists have accomplished more than 1,000 de novo genome assemblies(https://plabipd.de/portal/plant-genomes)as well as a series...Over the last 20 or so years,since the first release of the Arabidopsis genome in 2000,scientists have accomplished more than 1,000 de novo genome assemblies(https://plabipd.de/portal/plant-genomes)as well as a series of pan-genomes.The real challenges facing us are the decoding at the highly ploidy level and highly heterozygous plant genomes,as well as giga chromosomes and numerous chromosomes within a cell.展开更多
As global temperatures rise owing to climate change,crops are increasingly subjected to conditions that surpass their optimal temperature ranges,leading to heat stress(HS).HS impacts many morpho-physiological,biochemi...As global temperatures rise owing to climate change,crops are increasingly subjected to conditions that surpass their optimal temperature ranges,leading to heat stress(HS).HS impacts many morpho-physiological,biochemical,and molecular mechanisms in plants,ultimately affecting sustainable agricultural production worldwide(Ding et al.,2020;Kan et al.,2023;Raza et al.,2024).展开更多
基金funding from National Natural Science Foundation of China(32172614)a start-up fund from Hainan University.
文摘Over the last 20 or so years,since the first release of the Arabidopsis genome in 2000,scientists have accomplished more than 1,000 de novo genome assemblies(https://plabipd.de/portal/plant-genomes)as well as a series of pan-genomes.The real challenges facing us are the decoding at the highly ploidy level and highly heterozygous plant genomes,as well as giga chromosomes and numerous chromosomes within a cell.
基金supported by the Chinese National Key R&D Project for Synthetic Biology(2018YFA0902500)the National Natural Science Foundation of China(32273118)+3 种基金the Guangdong Key R&D Project(2022B1111070005)the Shenzhen Special Fund for Sustainable Development(KCXFZ20211020164013021)the Research Fund from Synthetic Biology Center of Shenzhen Universitythe Shenzhen University 2035 Program for Excellent Research(2022B010)to Z.H。
文摘As global temperatures rise owing to climate change,crops are increasingly subjected to conditions that surpass their optimal temperature ranges,leading to heat stress(HS).HS impacts many morpho-physiological,biochemical,and molecular mechanisms in plants,ultimately affecting sustainable agricultural production worldwide(Ding et al.,2020;Kan et al.,2023;Raza et al.,2024).
