the interaction of cpebf1 with cpmadss is involved in cell

The origin and evolution of lignin biosynthesis

Xiaochun Ding Xiaoyang Zhu Lanlan Ye Shuangling Xiao Zhenxian Wu Weixin Chen Xueping Li The interaction of CpEBF1 with CpMADSs is involved in cell wall degradation during papaya fruit ripening Horticulture Research 10 1038/s41438-018-0095-1 6 1 (2019)

Publications Authored by Xiaochun Ding

The Involvement of the Banana F-Box Protein MaEBF1 in Regulating Chilling-Inhibited Starch Degradation through Interaction with a MaNAC67-Like Protein Authors: Zunyang Song Jiajia Qin Qiuli Zheng Xiaochun Ding Weixin Chen Wangjin Lu Xueping Li Xiaoyang Zhu Biomolecules 2019 09 30 9(10) Epub 2019 Sep 30

Biomolecules

Low-temperature storage is a common strategy for preserving and transporting vegetables and fruits However many fruits are hypersensitive to chilling injury including bananas In the present study storage conditions of 11 C delayed the ripening of Fenjiao (Musa ABB Pisang Awak) banana and the pulp could be softened after ethephon treatment

The interaction of CpEBF1 with CpMADS1/3 further activated the activities of CW-degradation gene promoters Subcellular localization showed that these proteins were localized in the nucleus Additionally the expression levels of CpMADS1/3 CpEIL1 and several CW-degradation-related genes were significantly downregulated by long-term 1-MCP treatment

Papers in the journal Horticulture Research (Page 8

Polygalacturonase (SlPG) and expansin (SlEXP1) proteins cooperatively disassemble the polysaccharide network of tomato fruit cell walls during ripening and thereby enable softening A Golden 2-like (GLK2) transcription factor SlGLK2 regulates unripe fruit chloroplast development and results in elevated soluble solids and carotenoids in ripe

Transcriptomic analysis reveals key factors in fruit

Ding X Zhu X Ye L Xiao S Wu Z Chen W Li X The interaction of CpEBF1 with CpMADSs is involved in cell wall degradation during papaya fruit ripening Horticulture Res 2019 6 (1):13 doi: 10 1038/s41438-018-0095-1 [PMC free article] [Google Scholar]

[PDF] Analysis of Papaya Cell Wall

Papaya (Carica papaya L ) is a climacteric fleshy fruit that undergoes dramatic changes during ripening most noticeably a severe pulp softening However little is known regarding the genetics of the cell wall metabolism in papayas The present work describes the identification and characterization of genes related to pulp softening We used gene expression profiling to analyze the

Effects of nitric oxide treatment on the cell wall

2019-8-28Papaya fruits (Carica papaya L cv 'Sui you 2') harvested with 5% yellow surface at the blossom end were fumigated with 60 L/L of nitric oxide for 3 h and then stored at 20 ℃ with 85% relative humility for 20 days The effects of nitric oxide treatment on ethylene production rate the activities of cell wall softening related enzymes including polygalacturonase pectin methyl esterase

Transcriptomic analysis reveals key factors in fruit

Ding X Zhu X Ye L Xiao S Wu Z Chen W Li X The interaction of CpEBF1 with CpMADSs is involved in cell wall degradation during papaya fruit ripening Horticulture Res 2019 6 (1):13 doi: 10 1038/s41438-018-0095-1 [PMC free article] [Google Scholar]

The origin and evolution of lignin biosynthesis

Xiaochun Ding Xiaoyang Zhu Lanlan Ye Shuangling Xiao Zhenxian Wu Weixin Chen Xueping Li The interaction of CpEBF1 with CpMADSs is involved in cell wall degradation during papaya fruit ripening Horticulture Research 10 1038/s41438-018-0095-1 6 1 (2019)

Publications Authored by Xiaochun Ding

The Involvement of the Banana F-Box Protein MaEBF1 in Regulating Chilling-Inhibited Starch Degradation through Interaction with a MaNAC67-Like Protein Authors: Zunyang Song Jiajia Qin Qiuli Zheng Xiaochun Ding Weixin Chen Wangjin Lu Xueping Li Xiaoyang Zhu Biomolecules 2019 09 30 9(10) Epub 2019 Sep 30

The interaction of CpEBF1 with CpMADS1/3 further activated the activities of CW-degradation gene promoters Subcellular localization showed that these proteins were localized in the nucleus Additionally the expression levels of CpMADS1/3 CpEIL1 and several CW-degradation-related genes were significantly downregulated by long-term 1-MCP treatment

A transcriptomic analysis unravels key factors in the

The genes involved in cell wall degradation were also divided into two groups One group showed an increased level of expression with fruit ripening in both pulp and peel tissue including beta-galactosidase ( GAL-B-like ) beta-glucosidase ( GLU-B32 ) endoglucanase ( EGase12/12-like ) pectinesterase ( PE-like ) pectate lyase ( PL8/18 ) and

Publications Authored by Xiaochun Ding

The Involvement of the Banana F-Box Protein MaEBF1 in Regulating Chilling-Inhibited Starch Degradation through Interaction with a MaNAC67-Like Protein Authors: Zunyang Song Jiajia Qin Qiuli Zheng Xiaochun Ding Weixin Chen Wangjin Lu Xueping Li Xiaoyang Zhu Biomolecules 2019 09 30 9(10) Epub 2019 Sep 30

Publications Authored by Xiaochun Ding

The Involvement of the Banana F-Box Protein MaEBF1 in Regulating Chilling-Inhibited Starch Degradation through Interaction with a MaNAC67-Like Protein Authors: Zunyang Song Jiajia Qin Qiuli Zheng Xiaochun Ding Weixin Chen Wangjin Lu Xueping Li Xiaoyang Zhu Biomolecules 2019 09 30 9(10) Epub 2019 Sep 30

Transcriptomic analysis reveals key factors in fruit

Ding X Zhu X Ye L Xiao S Wu Z Chen W Li X The interaction of CpEBF1 with CpMADSs is involved in cell wall degradation during papaya fruit ripening Horticulture Res 2019 6 (1):13 doi: 10 1038/s41438-018-0095-1 [PMC free article] [Google Scholar]

Transcriptomic analysis reveals key factors in fruit

Ding X Zhu X Ye L Xiao S Wu Z Chen W Li X The interaction of CpEBF1 with CpMADSs is involved in cell wall degradation during papaya fruit ripening Horticulture Res 2019 6 (1):13 doi: 10 1038/s41438-018-0095-1 [PMC free article] [Google Scholar]

Papers in the journal Horticulture Research (Page 8

Fruit cracking is an important problem in horticultural crop production Polygalacturonase (SlPG) and expansin (SlEXP1) proteins cooperatively disassemble the polysaccharide network of tomato fruit cell walls during ripening and thereby enable softening

The origin and evolution of lignin biosynthesis

Xiaochun Ding Xiaoyang Zhu Lanlan Ye Shuangling Xiao Zhenxian Wu Weixin Chen Xueping Li The interaction of CpEBF1 with CpMADSs is involved in cell wall degradation during papaya fruit ripening Horticulture Research 10 1038/s41438-018-0095-1 6 1 (2019)

Role of ethylene biosynthesis and signaling in

2019-5-23This article unveiled that ethylene biosynthesis and signaling play a critical role in heat stress response of tomato plants under elevated CO2 Plant responses to elevated CO2 and heat stress are tightly regulated by an intricate network of phytohormones Plants accumulate ethylene (ET) the smallest hormone in response to heat stress however the role of ET and its signaling in elevated

A transcriptomic analysis unravels key factors in the

The genes involved in cell wall degradation were also divided into two groups One group showed an increased level of expression with fruit ripening in both pulp and peel tissue including beta-galactosidase ( GAL-B-like ) beta-glucosidase ( GLU-B32 ) endoglucanase ( EGase12/12-like ) pectinesterase ( PE-like ) pectate lyase ( PL8/18 ) and

Easy Yeast Plasmid Isolation Kit

Article Title: The interaction of CpEBF1 with CpMADSs is involved in cell wall degradation during papaya fruit ripening Article Snippet: Yeast plasmid isolation was performed using an Easy Yeast Plasmid Isolation Kit (Clontech USA) with minor modifications Y2H screening and transcriptional activation The Y2H experiment was conducted