2. 您的位置
3. 首页
4. 会议论文
5. Glucose sensor MdHXK1 phosphorylates and stabilizes MdbHLH3 to promote anthocyanin biosynthesis in a

Glucose sensor MdHXK1 phosphorylates and stabilizes MdbHLH3 to promote anthocyanin biosynthesis in a

来源 :1st International Apple Symposium (第一届世界苹果大会) | 被引量 : 0次 | 上传用户：a67826766

【摘 要】

：

Glucose induces anthocyanin accumulation in many plant species;however, the molecular mechanism involved in this process remains largely unknown.Here, we found that apple hexokinase MdHXK1, a glucose

【作 者】

：

Dagang Hu Yu-Jin Hao 

【机 构】

：

Shandong Agricultural University;61 Daizong Street, Tai'an, Shandong, 271018, China

【出 处】

：

1st International Apple Symposium (第一届世界苹果大会)

【发表日期】

：

2016年11期

【关键词】

：

Glucose MdHXK1 MdbHLH3 Phosphorylation Anthocyanin 

下载到本地 , 更方便阅读

下载此文 赞助VIP

声明 : 本文档内容版权归属内容提供方 , 如果您对本文有版权争议 , 可与客服联系进行内容授权或下架

论文部分内容阅读

Glucose induces anthocyanin accumulation in many plant species;however, the molecular mechanism involved in this process remains largely unknown.Here, we found that apple hexokinase MdHXK1, a glucose sensor, was involved in sensing exogenous glucose and regulating anthocyanin biosynthesis.

其他文献

BTB protein MdBT2 inhibits anthocyanin and proanthocyanidin biosynthesis by triggering MdMYB9 degrad

MdMYB9 is a positive regulator for the biosynthesis of anthocyanin and proanthocyanidin in apple.However, it is unclear about its posttranslational regulation.Here, we demonstrated that BTB protein Md

会议

MdBT2MdMYB9Anthocyanin and proanthocyanidinUbiquitinationApple

A stress-responsive NAC transcriptor factor gene MdNAC1 enhances tolerance of transgenic Arabidopsis

Plant-specific NAC transcription factors are encoded by one of the largest gene families.Studies have revealed that the NAC genes play important roles in diverse biological processed, including develo

会议

AppleDrought stressNAC transcription factor

The apple MdBTB1 protein regulates anthocyanin biosynthesis by interacting with the MdMYB1 transcrip

Anthocyanin is not only ROS scavengers but also pigments for organ color.Their biosynthesis is inhibited by nitrate.In the apple, MdMYB1 is a master regulator for anthocyanin biosynthesis and fruit co

会议

anthocyaninMdMYB1MdBTB1nitrate

Molecular cloning and functional characterization of a RING E3 Ligase MdSIR1 in apple

E3 ubiquitin ligases are involved in various physiological processes, and they play pivotal roles in growth and development.In this study, we identified a previously unknown gene in the apple fruit (M

会议

RING E3 LigaseMdSIR1stress

The molecular cloning and functional characterization of MdMYC2, a bHLH transcription factor in appl

The basic helix-loop-helix (bHLH) Leu zipper transcription factor MYC2 is an important regulator in the Jasmonic acid (JA) signaling pathway.In this study, the apple MdMYC2 gene was isolated and clone

会议

MdMYC2JA responseAnthocyaninApple

The molecular cloning and functional characterization of MdPIN1 in apple

Auxin has been identified to play critical roles in regulating plant growth and development.The polar transport of auxin is regulated by auxin transporters.In the present study, an auxin efflux carrie

会议

MdPIN1auxin transportroot developmentapple

MdMYB1 regulates anthocyanin and malate accumulation by directly facilitating their transport into v

Tonoplast transporters, including proton pumps and secondary transporters, are essential for plant cell function and for quality formation of fleshy fruits and omamentals.Vacuolar transport of anthocy

会议

VacuolesH+-ATPaseMdMYB1AnthocyaninsMalatesCell pH

Response of Four Apple Rootstock Roots and Transcriptome Analysis in Malus sieversii under Drought S

Water deficit is one of the main limiting factors for apple distribution and production.Roots of apple rootstocks play a key role in drought tolerance.To investigate the molecular mechanisms of water

会议

Malus sieversiiDrought stressRootstocksRootsTranscriptome analysis

Genome Expression Profile Analysis of two types of new roots in apple rootstock via Solexa sequencin

Root is the basis of the fruit trees.Currently, the molecular regulation mechanisms involved in the early development of new roots are poorly known in apple.To gain insight into the transcriptome dyna

会议

rootdifferential expressionappleSolexa sequencingtag

An R2R3 MYB Transcription Factor is critical for cold stress tolerance in apple

Cold stress is one of the adverse effects on apple distribution and production.However, the molecular mechanisms underlying apple cold stress tolerance are not clear.In this study, we cloned a novel R

会议

Malus × domesticaMdMYB5523 and MdMYB0970Cold stress