The chlorophyll fluoroscope, a device to observe the in vivo emission of chlorophyll fluorescence for teaching and demonstration purposes [0.03%]
叶绿素荧光观察仪——一种用于教学和演示的能够检测生物体内叶绿素荧光的装置
João Serôdio
João Serôdio
In vivo chlorophyll fluorescence has long been known to be intimately related to photosynthesis, being the basis of widespread and sophisticated instrumentation. Although easily observed in plant extracts or using epifluorescence or confoca...
Photoperiod-mediated rapid generation advancement in soybean (Glycine max (L.) Merr.) [0.03%]
大豆(Glycine max (L.) Merr.)的光周期介导快速世代 advancement 并无直接恰当翻译,可理解为“加快繁殖”或“加速育种”。因此整个标题可以翻译为:“大豆(Glycine max (L.) Merr.)的光周期介导快速育种”
Ambika Rajendran,Ayyagari Ramlal,Dhandapani Raju et al.
Ambika Rajendran et al.
Soybean is a short-day crop and the long-duration variety takes 120 days for maturity. A protocol for rapid generation advancement in soybean breeding is worthwhile keeping in view its utility. The study emphasizes standardisation of physic...
Assembly of allophycocyanin from individual subunits: involvement of apo-form in the formation of trimers [0.03%]
从单个亚基组装藻红蛋白:apo形式在三聚体形成中的作用
Daria V Bodunova,Daniil A Gvozdev,Olesya V Bukach et al.
Daria V Bodunova et al.
In cyanobacteria and red algae, allophycocyanin (APC), as well as other phycobiliproteins, is involved in the energy transfer of photosystems. Since APC is a potent fluorescent protein for imaging and biomedical applications, it is necessar...
Far-red light-driven photoautotrophy of chlorophyll f-producing cyanobacterium without red-shifted phycobilisome core complex [0.03%]
产生叶绿素f的蓝藻在没有红移藻红蛋白核心复合体的情况下进行远红光驱动的光自养作用
Da Huang,Tong Wei,Min Chen et al.
Da Huang et al.
Chlorophyll (Chl) f production expands oxygenic photosynthesis of some cyanobacteria into the far-red light (FRL) region through reconstructed FRL-allophycocyanin (APC) cores and Chl f-containing photosystems. Presently, a unicellular cyano...
PhoTorch: a robust and generalized biochemical photosynthesis model fitting package based on PyTorch [0.03%]
PhoTorch:一种基于PyTorch的稳健且通用的生化光合作用模型拟合包
Tong Lei,Kyle T Rizzo,Brian N Bailey
Tong Lei
Advancements in artificial intelligence (AI) have greatly benefited plant phenotyping and predictive modeling. However, unrealized opportunities exist in leveraging AI advancements in model parameter optimization for parameter fitting in co...
Spectral response of gross primary production to in situ canopy light absorption coefficient of chlorophyll [0.03%]
冠层叶绿素吸收系数对总初级生产力的光谱响应研究
Anatoly A Gitelson,Andrés Viña,Alexei Solovchenko
Anatoly A Gitelson
The amount of absorbed light is one of the main factors governing plant photosynthesis, and ultimately, the gross primary production (GPP) of vegetation. Since canopy chlorophyll (Chl) content defines the amount of light that can be absorbe...
Chandra Bellasio
Chandra Bellasio
Quantifying the effect of factors controlling CO2 assimilation is crucial for understanding plant functions and developing strategies to improve productivity. Methods exist in numerous variants and produce various indicators, such as limita...
John Raven, FRS, FRSE: a truly great innovator in plant physiology, photosynthesis and much more [0.03%]
约翰·雷文FRS FRSE:植物生理学、光合作用等领域的伟大创新者
A W D Larkum,P G Falkowski,Dianne Edwards et al.
A W D Larkum et al.
This is a tribute to a truly inspirational plant biologist, Prof. John A. Raven, FRS, FRSE (25th June 1941- 23rd May 2024), who died at the age of 82. He was a leader in the field of evolution and physiology of algae and land plants. His re...
Quantifying chlorophylls in melanic lichens: the necessity of separating the absorbance of melanin and chlorophyll [0.03%]
量化黑色地衣中的叶绿素:分离黑色素和叶绿素吸收的必要性
Knut Asbjørn Solhaug,Yngvar Gauslaa
Knut Asbjørn Solhaug
This study investigates extraction and quantification techniques for chlorophylls (Chl) in melanic lichens, with an emphasis on distinguishing between Chl and melanin absorbance during spectrophotometric assessments. We compared various ext...