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糜子GRF转录因子全基因组鉴定及在茎分生组织中的表达特征
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作者 韦恒 刘天鹏 +6 位作者 何继红 董孔军 任瑞玉 张磊 李亚伟 郝子义 杨天育 《遗传》 CAS CSCD 北大核心 2024年第3期242-255,共14页
为了解糜子(Panicum miliaceum L.)GRF(growth-regulating factor)基因家族成员全基因组信息及其在营养生长阶段分生组织中的表达特征,本研究通过生物信息学和转录组测序相结合的方法,分析了糜子GRF基因家族成员的染色体分布、基因结构... 为了解糜子(Panicum miliaceum L.)GRF(growth-regulating factor)基因家族成员全基因组信息及其在营养生长阶段分生组织中的表达特征,本研究通过生物信息学和转录组测序相结合的方法,分析了糜子GRF基因家族成员的染色体分布、基因结构、系统进化关系、顺式作用元件及其在营养器官茎分生组织中的表达特征。结果表明:糜子GRF基因家族包含21个成员,家族成员含有1~4个内含子和2~5个外显子,编码蛋白长度为224~618个氨基酸,等电点为4.93~9.69;PmGRF基因不均等分布于12条染色体上,除PmGRF13定位于细胞核和叶绿体外,其余均定位于细胞核。系统进化分析显示,糜子21个GRF基因分为4个亚族(A、B、C和D)。顺式作用元件分析表明,在糜子GRF基因上游2000 bp序列中,普遍存在数目不等、种类不同的参与光响应、激素响应、干旱诱导、低温和其他环境胁迫响应的顺式作用元件。对糜子高秆品种陇糜12号和矮秆品种张778拔节期节间和节部分生组织分别取样进行转录组测序及qRT-PCR分析,结果发现:PmGRF3、PmGRF12在矮秆品种张778中表达量显著高于高秆品种陇糜12号,而PmGRF4、PmGRF16和PmGRF21的表达特征与之相反;PmGRF2和PmGRF5在张778节间分生组织中的表达量显著高于陇糜12号,其余GRF基因不表达或差异表达不显著,表明PmGRF2、PmGRF3、PmGRF4、PmGRF5、PmGRF12、PmGRF16和PmGRF21等7个基因与糜子株高的形成相关。 展开更多
关键词 糜子 GRF基因 转录组 株高
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Boosting the oxygen evolution reaction through migrating active sites from the bulk to surface of perovskite oxides 被引量:2
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作者 Zhengsen Wang ziyi hao +3 位作者 Fang Shi Kaiyue Zhu Xuefeng Zhu Weishen Yang 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2022年第6期434-441,I0012,共9页
The oxygen evolution reaction (OER) dominates the efficiency of electrocatalytic water splitting owing to its sluggish kinetics.Perovskite oxides (ABO_(3)) have emerged as promising candidates to accelerate the OER pr... The oxygen evolution reaction (OER) dominates the efficiency of electrocatalytic water splitting owing to its sluggish kinetics.Perovskite oxides (ABO_(3)) have emerged as promising candidates to accelerate the OER process owing to their high intrinsic activities and tailorable properties.Fe ions in perovskite oxides have been proved to be a highly catalytic element for OER,while some Fe-based perovskites such as SrTi_(0.8)Fe_(0.2)O_(3-δ)(STF) and La_(0.66)Ti_(0.8)Fe_(0.2)O_(3-δ)(LTF) exhibit inferior OER activity.Yet the essential reason is still unclear and the effective method to promote the activity of such perovskite is also lacking.Herein,an in-situ exsolution strategy was proposed to boost the OER by migrating Fe from the bulk to the surface.Significantly enhanced OER activity was achieved on STF and LTF perovskites with surfacedecorated oxygen vacancies and Fe nanoparticles.In addition,theoretical calculation confirmed that the oxygen vacancies and Fe nanoparticle on surface could lower the overpotential of OER by facilitating the adsorption of OH^(-).From this study,migration of the active elements in perovskite is found to be an effective strategy to increase the quantity and activity of active sites,providing new insights and understanding for designing efficient OER catalysts. 展开更多
关键词 Oxygen evolution reaction(OER) Perovskite oxides Oxygen vacancy Fe nanoparticles Migration of active site
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