The combined effects of Golden2-like 2 and Pseudo-Response Regulator 2 control the fruit pigmentation in pepper [0.03%]
Golden2-like 2和Pseudo-Response Regulator 2的复合效应调控辣椒果实着色
Soobin Lee,Gyu-Myung Lee,Hee Ju Yoo et al.
Soobin Lee et al.
Fruit pigmentation mainly controlled by chlorophyll, carotenoids, and flavonoids is an important phenomenon for fortifying the nutritional and esthetic value of humans. Our previous study identified Pseudo-Response Regulator 2 (PRR2) as a r...
The IbmiRn01-IbSEN1-Ibcirc560 module regulates chilling tolerance in sweetpotato [0.03%]
IbmiRn01-IbSEN1-Ibcirc560模块调控甜薯的耐寒性
Fangfang Mu,Hao Zheng,Mingku Zhu et al.
Fangfang Mu et al.
Chilling stress is a major constraint on sweetpotato growth and yield. Understanding how sweetpotato perceives cold signals is therefore crucial for understanding the mechanisms underlying its ability to avoid chilling and maintain producti...
SMXL3 controls multiple aspects of Arabidopsis development via EAR motif-dependent and -independent functions [0.03%]
EAR基序依赖和非依赖的SMXL3通过多种途径控制拟南芥的生长发育
Zoltán Tolnai,Eszter Badics,Imran Khan et al.
Zoltán Tolnai et al.
SMAX1-LIKE (SMXL) proteins, previously linked to strigolactone and karrikin signalling, play diverse and partially redundant roles in plant development. The divergent SMXL4 superclade-comprising SMXL3, SMXL4 and SMXL5-is not subject to stri...
Evolution of calyx diversity in angiosperms: a focus on transcriptomic repatterning mechanisms underlying inflated fruiting calyx within Solanaceae [0.03%]
被子植物萼片多样性的演化:侧重茄科果实状萼片的转录组重塑机制
Wei Gou,Nan Xu,Qiaoru Li et al.
Wei Gou et al.
The angiosperm calyces display considerable diversity and have adaptive functions. However, the evolutionary trajectories and underlying mechanisms of calyx morphological diversity remain unclear. In this study, ancestral state reconstructi...
Biochemical characterization of xyloglucan galactosyltransferases MUR3 and XLT2 from Spirodela polyrhiza [0.03%]
水鳖属(xyloglucan半乳糖基转移酶MUR3和XLT2的生化表征)
Charles J Corulli,Alexander S Graf,Digantkumar Chapla et al.
Charles J Corulli et al.
Glycosyltransferases (GTs) are the primary enzymes responsible for the biosynthesis of the complex polysaccharides in plant cell walls. Given the important role of GTs in plants, it is necessary to undertake their functional characterizatio...
The MicroRNA156a-SPL module regulates kiwifruit resistance to Pseudomonas syringae pv. actinidiae [0.03%]
MicroRNA156a-SPL模块调节猕猴桃对棒状链格孢菌的抗性
Shunyuan Wu,Wenli Yue,Junyu Huang et al.
Shunyuan Wu et al.
MicroRNAs (miRNAs) are key regulators of plant growth, development, and immunity. However, their role in kiwifruit and other perennial fruit trees remains poorly characterized. Here, we demonstrate that Ac-miR156a functions as a negative re...
Tailored for swift recognition: A structural perspective on secondary active plant hormone transporters [0.03%]
结构视角下的次级主动植物激素转运蛋白:迅捷识别的定制方案
Bjørn Lildal Amsinck,Ines Benhammouche,Adriana Chrenková et al.
Bjørn Lildal Amsinck et al.
Plant hormone transporters are essential for regulating phytohormone distribution at the cellular, tissue, and organ levels in plants. These proteins control hormone movement across membranes, shaping the spatial and temporal hormone gradie...
Nucleolar dominance arises in Spartina homoploid hybrids and persists after allopolyploidization [0.03%]
米草同宗杂交中核仁优势的产生并在异源多倍化之后持续存在
Alena Kuderová,Dalibor Húska,Julie Ferreira de Carvalho et al.
Alena Kuderová et al.
Allopolyploid Spartina anglica C.E. Hubbard (2n = 120-124) has become recognized as a model system of recent allopolyploid speciation. It arose by interspecific hybridization between S. alterniflora (2n = 62) introduced from North America a...
Relieving an elongation bottleneck unlocks eicosapentaenoic acid biosynthesis in the industrial microalga Nannochloropsis oceanica [0.03%]
缓解拉长瓶颈可解锁工业微藻海洋纳米绿藻中二十碳五烯酸生物合成路径
Jie Zheng,Ye Liu,Yulu Liu et al.
Jie Zheng et al.
Nannochloropsis oceanica is an industrially relevant marine microalga that accumulates high levels of lipids and synthesizes the health-beneficial ω-3 polyunsaturated fatty acid eicosapentaenoic acid (EPA). However, EPA biosynthesis in thi...
RtNAC081 promotes salt tolerance and plant growth linked to brassinosteroid/abscisic acid signaling in Reaumuria trigyna [0.03%]
RtNAC081通过促进盐生碱地柏的 brassinosteroid/abscisic acid 信号转导来提高其耐盐性和植物生长
Binjie Ma,Zhigang Wu,Lang Yan et al.
Binjie Ma et al.
Both abscisic acid (ABA) and brassinosteroids (BRs) antagonistically regulate growth and abiotic stress responses; however, the mechanisms by which these phytohormones synergistically influence growth and salt tolerance in halophytes have n...