1. Binquan Huang, Holly Ruess, Qiqi Liang, Christophe Colleoni and David Spooner* (2019) Analyses of 202 plastid genomes elucidate the phylogeny of Solanum section Petota. Scientific Reports 9:4454
2. Binquan Huang, David Spooner, Qiqi Liang (2018) Genome diversity of the potato. PNAS 115(28): E6392-E6393.
3. Yangping Li, Christophe Colleoni, Junjie Zhang, Qiqi Liang, Yufeng Hu, Holly Ruess, Reinhard Simon, Yinghong Liu, Hanmei Liu, Guowu Yu, Eric Schmitt, Chloe´ Ponitzki, Guangjian Liu, Huanhuan Huang, Feilong Zhan, Lin Chen, Yubi Huang, David Spooner*, and Binquan Huang* (2018) Genomic Analyses Yield Markers for Identifying Agronomically Important Genes in Potato. Molecular Plant 11:473–484.
4. Binquan Huang, Tracie Hennen-Biervagen, Alan Myers (2014) Functions of multiple genes encoding ADP-Glucose Pyrophosphorylase subunits in maize endosperm, embryo, and leaf. Plant Physiology 164(2) 596-611.
5. Binquan Huang, Peter Keeling, Tracie Hennen-Biervagen, Alan Myers (2016) Comparative in vitro analyses of recombinant maize starch synthases SSI, SSIIa, and SSIII reveal direct regulatory interactions and thermos sensitivity. Archives of Biochemistry and Biophysics 596: 63-72.
6. Qiaohui Lin, Binquan Huang, Mingxu Zhang, Xiaoli Zhang, Joshua Rivenbark, Ryan L. Lappe, Martha G. James, Alan M. Myers and Tracie A. Hennen-Bierwagen (2012). Functional interactions between starch synthase III and isoamylase-type starch-debranching enzyme in maize endosperm. Plant Physiology 158(2): 679-92.
7. Qihua Ling, Najiah Mohd. Sadali, Ziad Soufi, Yuan Zhou,Binquan Huang, Yunliu Zeng, Manuel Rodríguez-Concepción, and R. Paul Jarvis (2021).Regulation of chromoplast development by the CHLORAD pathway controls tomato fruit ripening.Nature Plant(In Press)
8. Matthieu Colpaert , Derifa Kadouche, Mathieu Ducatez, Trestan Pillonel, Carole Kebbi-Beghdadi, Ugo Cenci,Binquan Huang, Malika Chabi, Emmanuel Maes, Bernadette Coddeville, Loïc Couderc, Hélène Touzet, Fabrice Bray, Catherine Tirtiaux, Steven Ball, Gilbert Greub & Christophe Colleoni (2021). Conservation of the glycogen metabolism pathway underlines a pivotal function of storage polysaccharides in Chlamydiae.Communications Biology(In Press)
(更新时间:2021年4月)
