首都师范大学2019年施慧教授实验室考研调剂信息.docx
新祥旭官网:http:/www.xxxedu.net首都师范大学 2019 年施慧教授实验室考研调剂信息学校:首都师范大学专业:理学-生物学年级:2019招生人数:2招生状态:正在招生中首都师范大学-植物学国家重点学科-诚招调剂生首都师范大学生命科学学院施慧教授实验室诚招 2019 年硕士调剂生,表现优异者可推荐在首都师范大学或北京大学继续攻读博士学位。申请者请将个人简历发至 shilabgy163.com,邮件名称为“姓名+本科毕业学校+报考学校+报考专业”,邮件内容做个人陈述,附件请附个人简历(含大学成绩单)和考研成绩。施慧:教授、研究员,博士生导师,北京市长城学者。课题组信息详见:http:/smkxxy.cnu.edu.cn/szll/zrjs/js/113496.htm施慧导师简介:教育经历2009-2014 生命科学学院,北京大学,博士2012-2014 发育、细胞和分子生物学系,耶鲁大学,联合培养博士生新祥旭官网:http:/www.xxxedu.net2010-2012 植物和微生物学系,加州大学伯克利分校,联合培养博士生2005-2009 生命科学学院,北京大学,学士工作经历2016 至今生命科学学院,首都师范大学,教授、研究员2014-2016 生命科学学院,北京大学,讲师研究方向课题组致力于研究植物种子萌发和幼苗形态发育的分子机制,综合运用分子遗传学、生物化学、基因组学等技术手段,重点关注外界环境因子和内源激素对种子萌发、幼苗暗形态建成和光形态建成的调控作用。近五年发表主要论文:近五年来,施慧博士以第一作者或通讯作者在专业一流学术刊物 pnas, development alcell(封面文章),current biology, plant cell 上发表了一系列高水平原创研究论文,并以合作作者发表原创论文多篇,在国际研究领域产生重要影响。研究成果被美国科学院院士 winslowr. briggs 等多位国际著名植物学家在 current biology、 natureplants、 trends in plant science、development alcell 以及 annual review of plant biology 上撰文评述和亮点推荐,并多次受到 faculty 1000 的重点推荐。代表论文:1.luo, y. and shi, h. * direct regulation of phytohormone actions by photoreceptors. trends in plant science, 2019, 24(2), 105-108. 【SCI 影响因子:12.149】2.shi, h., lyu, m., luo, y., liu, s., li, y., he, h., wei, n., deng, x.w. *, zhong, s.* genome-wide regulation of light-controlled seedling morphogenesis by three families of transcription factors. pnas, 2018, 115(25):6482-6487. 【SCI 影响因子:9.504】3. pan, y. and shi, h. * stabilizing the transcription factors by e3 ligase cop1. trends in plant science, 2017, 22, 999-1001. 【SCI 影响因子:12.149】4. liu, x., liu, r., li, y., shen, x., zhong, s. *, and shi, h. * ein3 and pif3 form an 新祥旭官网:http:/www.xxxedu.netinterdependent module that represses chloroplast development in buried seedlings. plant cell, 2017, 29(12), 3051-3067. (当期亮点文章,在当期刊物配发专家评述,当选为发表当月最受关注的 top5 文章,被 f1000 推荐) 【SCI 影响因子:8.228】5. shi, h., shen, x., liu, r., xue, c., wei, n., deng, x.w.*, and zhong, s.*(2016). the red light receptor phytochrome b directly enhances substrate-e3 ligaseinteractions to attenuate ethylene responses. developmental cell, 2016, 39(5), 597-610.(当期封面论文,在同期刊物上作为亮点论文评述推荐,被 science 系列期刊 science signaling 选为 editors choice 论文做特别介绍,入选“2016 中国科学家与 cell press”特刊)【SCI 影响因子:9.616】6.shi, h., liu, r., xue, c., shen, x., wei, n., deng, x.w.*, and zhong, s.* seedlings transduce the depth and mechanical pressure of covering soil using cop1 and ethylene to regulate ebf1/ebf2 for soil emergence. current biology, 2016, 26, 139-149.(在同期刊物上作为亮点论文评述推荐,被 nature 系列期刊 nature plant 和植物学顶级综述期刊 trends in plant science 做特别评述,入选“2016 中国科学家与 cell press”特刊)【SCI 影响因子: 9.251】7. shi, h., wang, x., mo, x., tang, c., zhong, s.*, and deng, x.w.* arabidopsis det1 degrades hfr1 but stabilizes pif1 to precisely regulate seed germination. pnas, 2015, 112, 3817-3822.【SCI 影响因子:9.504】8. shi, h., zhong, s.w., mo, x.r., liu, n., nezames, c.d., and deng, x.w.* hfr1 sequesters pif1 to govern the transcriptional network underlying light-initiated seed germination in arabidopsis. plant cell, 2013, 25, 3770-3784.【SCI 影响因子:8.228】合作论文:1.yu, y., wang, j., shi, h., gu, j., dong, j., deng, x.w. and huang, r.* salt stress and ethylene antagonistically regulate nucleocytoplasmic partitioning of cop1 to control seed germination. plant physiology, 2016, 170, 2340-50.2.zhong, s.w., shi, h., xue, c., wei, n., guo, h.w., and deng, x.w.* (2014). ethylene-orchestrated circuitry coordinates a seedlings response to soil cover and etiolated growth. pnas, 2014, 111, 3913-3920.3. peng, j.y., li, z.h., wen, x., li, w.y., shi, h., yang, l.s., zhu, h.q., and guo, h.w.* salt-induced stabilization of ein3/eil1 confers salinity tolerance by deterring ros accumulation in arabidopsis. plos genetics, 2014, 10.4. pfeiffer, a., shi, h., tepperman, j.m., zhang, y., and quail, p.h.* combinatorial complexity in a transcriptionally centered signaling hub in arabidopsis. molecular plant, 2014, 7, 1598-1618.新祥旭官网:http:/www.xxxedu.net5.zhang, y., mayba, o., pfeiffer, a., shi, h., tepperman, j.m., speed, t.p., and quail, p.h.* a quartet of pif bhlh factors provides a transcriptionally centered signaling hub that regulates seedling morphogenesis through differential expression-patterning of shared target genes in arabidopsis. plos genetics, 2013, 9.新祥旭提示:本文内容转载自小木虫论坛,由学校导师实验室自行发布,信息准确度有待考量,请广大考生谨慎选择。更过考研信息请关注“首都师范考研联盟”微信公众号!