搜索结果: 1-15 共查到“植物学 Plants”相关记录95条 . 查询时间(0.094 秒)
![](http://www.firstlight.cn/upload/imgfile/20246/28/2024628145529322.png)
Tropical Plants|海南大学王华锋教授团队在海南手指柠檬种质鉴评取得进展(图)
Tropical Plants 海南大学 王华锋 手指柠檬 种质鉴评
font style='font-size:12px;'>
2024/6/28
![](http://www.firstlight.cn/upload/imgfile/20246/5/20246515422133.png)
中国科学院地理科学与资源研究所牛书丽课题组在Nature Plants发布关于植物高度与碳固存对气候变暖响应的研究进展(图)
牛书丽 植物群落 气候变暖
font style='font-size:12px;'>
2024/6/5
植物群落的组成和结构在气候变暖下发生了显著变化,尤其是在高海拔和寒冷地区。然而,由于植物群落结构变化和生态系统功能改变之间的联系非常复杂,气候变暖引起的植物群落组成和结构变化对高寒生态系统碳循环的影响及其机制尚不明确。群落加权的植物功能性状可以为我们全面理解植物群落和碳循环对气候变暖的响应提供重要的依据,因为植物功能性状直接反映了植物的生态策略,并与生态系统功能的变化密切相关。
![](http://www.firstlight.cn/upload/imgfile/20246/3/20246319553515.png)
NAT PLANTS|中国农业大学生物学院李继刚课题组揭示远红光受体phyA的蛋白磷酸化机制(图)
NAT PLANTS 李继刚 远红光受体 phyA 蛋白磷 酸化
font style='font-size:12px;'>
2024/6/3
![](http://www.firstlight.cn/upload/imgfile/20246/3/202463211745276.png)
NAT PLANTS|中国农业大学生物学院杨光辉和郭岩课题组合作解析植物抗盐胁迫关键蛋白SOS1的结构和功能调节机理(图)
NAT PLANTS 杨光辉 郭岩 盐胁迫 蛋白SOS1
font style='font-size:12px;'>
2024/6/3
![](http://www.firstlight.cn/upload/imgfile/202312/11/20231211101511276.jpg)
【致远名家讲堂】第三讲丨美国杜克大学何胜洋院士:Disease-Microbiome-Climate interactions in plants(图)
致远名家讲堂 第三讲 何胜洋 美国杜克大学 病害三角 植物病原物
font style='font-size:12px;'>
2023/12/11
![](http://www.firstlight.cn/upload/imgfile/20234/9/202349151519165.jpg)
分子遗传学前沿讲座(网络报告):Regulation of chromatin positioning by the dynamic nuclear lamina in plants(时间:2022年7月7日15:00)(图)
分子遗传学 前沿讲座 植物基因组
font style='font-size:12px;'>
2023/4/9
![](http://www.firstlight.cn/upload/imgfile/20225/24/202252418345129.png)
Nature Plants封面文章:苏铁基因组——现存最原始种子植物基因组详解(图)
Nature Plants 苏铁基因组 原始种子 植物基因组 自然-植物
font style='font-size:12px;'>
2022/5/24
![](http://www.firstlight.cn/upload/imgfile/20243/5/202435114518541.jpg)
Nature Plants | 四川大学肖朝文团队发表“果胶HG—细胞壁的动态结构组分和监测细胞壁完整性的信号分子”综述文章(图)
果胶HG 细胞壁 四川大学 生命科学学院
font style='font-size:12px;'>
2024/3/5
四川大学生命科学学院肖朝文研究团队在Nature Plants杂志发表了题为Dynamics of pectic homogalacturonan in cellular morphogenesis and adhesion, wall integrity sensing, and plant development的综述文章,系统阐述了细胞壁重要组成单元——果胶多聚半乳糖醛酸HG的合成代谢,以及...
How plants quickly adapt to shifting environmental conditions
plant light change DNA PIF
font style='font-size:12px;'>
2021/8/4
Researchers offers a new understanding of how gene activity directs plant growth, and how quickly plants respond to their environment -- with shifting light conditions triggering molecular changes in ...
![](http://www.firstlight.cn/upload/imgfile/20214/16/20214161556120.jpg)
Thicker-leaved tropical plants may flourish under climate change(图)
Thicker-leaved tropical plants flourish climate change
font style='font-size:12px;'>
2021/4/16
How plants will fare as carbon dioxide levels continue to rise is a tricky question and, researchers say, especially vexing in the tropics. Some aspects of plants' survival may get easier, some parts ...
![](http://www.firstlight.cn/upload/imgfile/20214/9/202149151754175.jpg)
Scientists report 6 novel variants in CRISPR-Cas12a in plants,expanding genome engineering(图)
report 6 novel variants CRISPR-Cas12a plants expanding genome engineering
font style='font-size:12px;'>
2021/4/9
The research of plant scientist Yiping Qi at the University of Maryland focuses on innovative genome editing and engineering techniques in plants, with the goal of improving the efficiency o...
![](http://www.firstlight.cn/upload/imgfile/202012/11/20201211102155795.jpg)
In fire-prone West, plants need their pollinators, and vice versa(图)
fire-prone West plants pollinators
font style='font-size:12px;'>
2020/12/11
The year 2020 is the worst fire year on record in the United States, with nearly 13 million acres burned, 14,000 structures destroyed and an estimated $3 billion spent on fire suppression.Scientists a...
![](http://www.firstlight.cn/upload/imgfile/202010/23/20201023165936573.jpg)
Dueling proteins give shape to plants(图)
Dueling proteins shape plants
font style='font-size:12px;'>
2020/10/23
In an elegant choreography, plants take cues from their environment and channel them into forms: flowers, roots and branches. In a new paper published in Nature Communications, biologist Doris Wa...
![](http://www.firstlight.cn/upload/imgfile/20224/1/202241154459940.png)
中山大学李陈龙课题组Nature Plants刊文发现植物SWI/SNF染色体重塑复合物的新亚基(图)
陈龙课题组;植物SWI/SNF染色体;重塑复合物
font style='font-size:12px;'>
2022/4/1
SWI/SNF染色质重塑复合体通过利用ATP水解所产生的能量改变染色质的结构来调节基因转录。SWI/SNF染色质重塑复合体在酵母,哺乳动物和植物中都相当保守。酵母的SWI/SNF主要由8-14个亚基组成,而动物中的SWI/SNF复合体则由29个基因编码组装而成。在模式植物拟南芥中,编码SWI/SNF复合体的亚基的基因突变会导致一系列严重的发育异常表型。虽然人们认为典型的植物SWI/SNF复合物主要...
![](http://www.firstlight.cn/upload/imgfile/20207/10/202071085821370.jpg)
Major group of flowering plants is evolving twice as quickly in temperate zones as in the tropics(图)
Major group flowering plants evolving twice quickly temperate zones tropics
font style='font-size:12px;'>
2020/7/10
In a surprise twist, a major group of flowering plants is evolving twice as quickly in temperate zones as in the tropics. The finding runs counter to a long-held hypothesis that tropical regions, home...