[1]Flavonoids from the Pericarps of Litchi chinensis. Li, Sha,Zhang, Ruifen,Zhang, Mingwei,Ma, Qing,Xie, Haihui,Wei, Xiaoyi,Ma, Qing.

[2]Low concentration of sodium bicarbonate improves the bioactive compound levels and antioxidant and alpha-glucosidase inhibitory activities of tartary buckwheat sprouts. Qin, Peiyou,Wei, Aichun,Yao, Yang,Yang, Xiushi,Dun, Baoqing,Ren, Guixing,Wei, Aichun,Zhao, Degang,Wei, Aichun,Zhao, Degang.

[3]Accumulation of melanin in the peritoneum causes black abdomens in broilers. Shu, D.. 2014

[4]A Preliminary Study on the Pattern, the Physiological Bases and the Molecular Mechanism of the Adductor Muscle Scar Pigmentation in Pacific Oyster Crassostrea gigas. Yu, Wenchao,He, Cheng,Wei, Lei,Chen, Jun,Jiang, Qiuyun,Wei, Na,Li, Zhuang,Wang, Xiaotong,Cai, Zhongdiang,Xu, Fei,Guo, Wen. 2017

[5]Molecular and biochemical characterization of a distinct tyrosinase involved in melanin production from Aeromonas media. Wan, Xia,Chai, Baozhong,Liao, Yi,Ye, Tao,Shen, Ping,Chen, Xiangdong,Wan, Xia,Su, Ying.

[6]Characterization of the Sclerotinia sclerotiorum cell wall proteome. Liu, Longzhou,Free, Stephen J..

[7]De Novo Assembly and Characterization of Pericarp Transcriptome and Identification of Candidate Genes Mediating Fruit Cracking in Litchi chinensis Sonn.. Li, Wei-Cai,Zhang, Hong-Na,Shi, Sheng-You,Liu, Li-Qin,Shu, Bo,Liang, Qing-Zhi,Xie, Jiang-Hui,Wei, Yong-Zan,Wu, Jian-Yang. 2014

[8]Genomic regions associated with the degree of red coloration in pericarp of rice (Oryza sativa L.). Dong, Yanjun,Xiao, Ke,Zhang, Yongjuan,Zhang, Junzhi,Luo, Lijun,Matsuo, M.,Xu, Jianlong. 2008

[9]ADP-glucose pyrophosphorylase is localized to both the cytoplasm and plastids in developing pericarp of tomato fruit. Chen, BY,Wang, Y,Janes, HW.

[10]Comparison of the photosynthetic characteristics in the pericarp and flag leaves during wheat (Triticum aestivum L.) caryopsis development. Kong, L. A.,Xie, Y.,Si, J. S.,Hu, L.,Sun, M. Z..

[11]Ultrastructural changes arising from the pericarp cell of young apricot fruit under frost conditions. Zhang, J. H.,Wang, Y. Z.,Sun, H. Y.,Yang, L.,Jiang, F. C..

[12]Production of quercetin, kaempferol and their glycosidic derivatives from the aqueous-organic extracted residue of litchi pericarp with Aspergillus awamori. Lin, Sen,Zhu, Qinqin,Wen, Lingrong,Yang, Bao,Jiang, Guoxiang,Jiang, Yueming,Gao, Haiyan,Chen, Feng,Lin, Sen,Zhu, Qinqin,Jiang, Guoxiang.

[13]Textural changes in 'Hayward' kiwifruit during and after storage in controlled atmospheres. Li, Huajia,Billing, David,Pidakala, Paul,Burdon, Jeremy.

[14]Transcriptomic analyses reveal complex and interconnected sucrose signaling cascades in developing seeds of castor bean. Wang, Bin,Haque, Mohammad Enamul,Xu, Wei,Li, Fei,Liu, Aizhong,Wang, Bin,Haque, Mohammad Enamul,Zhang, Yang,Liu, Aizhong. 2018

[15]Comparative Transcriptomic Analyses of Vegetable and Grain Pea (Pisum sativum L.) Seed Development. Liu, Na,Zhang, Guwen,Xu, Shengchun,Hu, Qizan,Gong, Yaming,Mao, Weihua. 2015

[16]Suppression of OsMADS7 in rice endosperm stabilizes amylose content under high temperature stress. Zhang, Hua,Xu, Heng,Feng, Mengjie,Zhu, Ying. 2018

[17]Evolutionary and functional study of the CDPK gene family in wheat (Triticum aestivum L.). Li, Ai-Li,Zhu, Yuan-Fang,Tan, Xiao-Mei,Wang, Xiang,Wei, Bo,Guo, Han-Zi,Zhang, Zeng-Lin,Chen, Xiao-Bo,Zhao, Guang-Yao,Kong, Xiu-Ying,Jia, Ji-Zeng,Mao, Long,Tan, Xiao-Mei.

[18]Identification of regulatory networks and hub genes controlling soybean seed set and size using RNA sequencing analysis. Du, Juan,Wang, Shoudong,He, Cunman,Shou, Huixia,Zhou, Bin,Ruan, Yong-Ling.

[19]Development of an efficient method for the isolation of factors involved in gene transcription during rice embryo development. Ye, R,Yao, QH,Xu, ZH,Xue, HW. 2004

[20]Expression analysis of abscisic acid (ABA) and metabolic signalling factors in developing endosperm and embryo of barley. Chen, Zhiwei,Huang, Jianhua,Muttucumaru, Nira,Halford, Nigel G.,Powers, Stephen J.. 2013