中国科技期刊卓越行动计划推介：Plant Communications（第10期）

Volume5,Issue10,2024

Onthecover:,,the,Lietal.(2024)reportthehaplotype-resolvedT2Tgenomeasse(ASE)ofgenesassociatedwithfruitqualitytraitsandidentifiedstructuralvarianthotspotsandselectivesweepsduringpeardomesticationanddiversification,providingevidencesuggestingthecontributionsofASEtoheterosisinfruit-qualitytraits.

Imageby:QionghouLi

Issue:PlantCommunications()

Correspondences

Thehaplotype-resolvedT2TgenomeassemblyofthewildpotatospeciesSolanumcommersoniiprovidesmolecularinsightsintoitsfreezingtolerance

DOI:10.1016/

YangFeng,JieZhou,DianjueLi,ZhenWang,ChengPeng,andGuangtaoZhu

lcQTH:Rapidquantitativetraitmappingbytracingparentalhaplotypeswithultra-low-coveragesequencing

DOI:10.1016/

WenxiWang,ZheChen,ZhengzhaoYang,ZihaoWang,JiluLiu,JieLiu,HuiruPeng,ZhenqiSu,ZhongfuNi,QixinSun,andWeilongGuo

Thecompletetelomere-to-telomeregenomeassemblyoflettuce

DOI:10.1016/

KeWang,JingyunJin,JingxuanWang,XinruiWang,JieSun,DianMeng,XiangfengWang,YongWang,andLiGuo

CentIER:Accuratecentromereidentificationforplantgenomes

DOI:10.1016/

DongXu,JinbaoYang,HuamingWen,WenleFeng,XiaohuiZhang,XingqiHui,JunyangYue,YunXu,FeiChen,andWeihuaPan

Resourcearticles

TWASfacilitatesgene-scaletraitgeneticdissectionthroughgeneexpression,structuralvariations,andalternativesplicinginsoybean

DOI:10.1016/

DelinLi,QiWang,YuTian,XiangguangLyv,HaoZhang,HuilongHong,HuaweiGao,Yan-FeiLi,ChaosenZhao,JiajunWang,RuizhenWang,JinliangYang,BinLiu,,,Ying-HuiLi,andLi-JuanQiu

PCMD:Amultilevelcomparisondatabaseofintra-andcross-speciesmetabolicprofilingin530plantspecies

DOI:10.1016/

YueHu,YaoRuan,Xin-LeZhao,FengJiang,DongxuLiu,QiangZhu,Qing-YeZhang,andQing-YongYang

Reviewarticles

CrosstalkbetweenRNAm6Amodificationandepigeneticfactorsinplantgeneregulation

DOI:10.1016/

JianzhongHu,TaoXu,andHunseungKang

Integratingevolutionarygenomicsofforesttreestoinformfuturetreebreedingamidrapidclimatechange

DOI:10.1016/

JiajunFeng,XumingDan,YangkaiCui,YiGong,MinyuePeng,YupengSang,,andJingWang

PlantCom|四川大学王婧课题组发表气候变化背景下的林木遗传育种相关综述

Researcharticles

OsNLP3enhancesgrainweightandreducesgrainchalkinessinrice

DOI:10.1016/

Liang-QiSun,YuBai,JieWu,Shi-JunFan,Si-YanChen,Zheng-YiZhang,Jin-QiuXia,Shi-MeiWang,Yu-PingWang,PengQin,Shi-GuiLi,PingXu,ZhongZhao,Cheng-BinXiang,andZi-ShengZhang

Haplotype-resolvedT2Tgenomeassembliesandpangenomegraphofpearrevealdiversepatternsofallele-specificexpressionandthegenomicbasisoffruitqualitytraits

DOI:10.1016/

QionghouLi,XinQiao,LanqingLi,ChaoGu,HaoYin,KaijieQi,ZhihuaXie,ShengYang,QifengZhao,ZewenWang,YuhangYang,JiahuiPan,HongxiangLi,JieWang,ChaoWang,,ShaolingZhang,andShutianTao

PlantCom|南京农大张绍铃院士团队构建梨T2T基因组和泛基因组图谱揭示等位基因在杂种优势和品质形成中的作用

AKNOXⅡtranscriptionfactorsuppressestheNLRimmunereceptorBRG8-mediatedimmunityinrice

DOI:10.1016/

SiliangXu,XinghuaWei,QinqinYang,DongxiuHu,YuanyuanZhang,XiaopingYuan,FengyuKang,ZhaozhongWu,ZhiqinYan,XueqinLuo,YanfeiSun,ShanWang,YueFeng,QunXu,MengchenZhang,andYaolongYang

中国水稻研究所魏兴华团队利用全基因组关联分析鉴定了一个水稻稻瘟病抗性基因BRG8，并通过遗传学及生理生化实验揭示其抗病分子机制。

PlantCom│中国水稻研究所魏兴华团队揭示NLR免疫受体BRG8介导水稻抗病的分子机制

GhATL68bregulatescottonfibercelldevelopmentbyubiquitinatingtheenzymerequiredforb-oxidationofpolyunsaturatedfattyacids

DOI:10.1016/

XinLi,GaiHuang,YifanZhou,KunWang,andYuxianZhu

武汉大学朱玉贤院士发现纤维特异E3泛素连接酶GhATL68b通过调节多不饱和脂肪酸（PUFAs）代谢中限速酶的稳态影响棉纤维细胞发育。本研究揭示了GhATL68b介导的蛋白质降解系统通过调节PUFAs稳态在调控纤维细胞发育中发挥重要作用。这是棉花研究中首次深入解析的C3H2C3型E3泛素连接酶，为提高棉纤维长度和产量提供了一个新的候选遗传改良靶标。

PlantCom│中国水稻研究所魏兴华团队揭示NLR免疫受体BRG8介导水稻抗病的分子机制

LAZY4actsadditivelywiththestarch–statolithdepentgravity-sensingpathwaytoregulateshootgravitropismandtillerangleinrice

DOI:10.1016/

WenguangWang,LinzhouHuang,YuqiSong,SongtaoGui,JiajiaCao,HanZhang,MengchenDu,JiazeChen,ZihaoWang,JieZhou,XiangbingMeng,DaliZeng,JiayangLi,andYonghongWang

山东农业大学王永红教授课题组鉴定到一个新的水稻分蘖角度调控基因该研究不仅拓宽了对水稻重力感应机制和分蘖角度遗传调控网络的认识，还为进一步解析不依赖于淀粉平衡石的水稻重力感应和分蘖角度调控机制奠定了基础。

PlantCom|山东农业大学王永红课题组鉴定到一个新的水稻分蘖角度调控基因

Thebiosynthesisofasiaticosideandmadecassosiderevealstandemduplication–directedevolutionofglycosideglycosyltransferasesintheApiales

DOI:10.1016/

XiaoyangHan,JingyiZhao,HongZhou,XuanZhou,ZixinDeng,ZhenhuaLiu,andYiYu

武汉大学药学院虞沂课题组联手上海交通大学农业与生物学院刘振华教授团队报道了伞形目药用植物积雪草（Centellaasiatica）中三萜皂苷天然产物积雪草苷（Asiaticoside）及羟基积雪草苷（Madecassoside）的C-28位G-G-R糖链的生物合成途径与相关酶催化机理。

PlantCom|虞沂课题组和刘振华教授团队合作揭示积雪草苷和羟基积雪草苷C-28位G-G-R糖链的生物合成途径

Anear-completeassemblyoftheHouttuyniacordatagenomeprovidesinsightsintotheregulatorymechanismofflavonoidbiosynthesisinYuxingcao

DOI:10.1016/

YuxingcaoZhengtingYang,FayinHe,YingxiaoMai,SixianFan,YinAn,KunLi,FengqiWu,MingTang,HuiYu,Jian-XiangLiu,andRuiXia

贵州师范大学生命科学学院及西南喀斯特山区生物多样性保护国家林业局重点实验室的杨正婷团队，联合华南农业大学园艺学院的夏瑞教授和浙江大学丽水生命健康创新中心的刘建祥教授成功组装了一个高质量的四倍体鱼腥草基因组（2.24Gb，76条染色体，4n=76），并成功拼接了72条染色体的端粒。该研究为深入理解鱼腥草的基因组特征及其黄酮类化合物的生物合成调控机制提供了新的见解，对鱼腥草的药用开发具有重要意义。

PlantCom|贵州师范大学杨正婷团队联合华南农业大学夏瑞和浙江大学刘建祥团队揭示鱼腥草基因组和黄酮生物合成的调控机制