Steering acidic oxygen reduction selectivity of single-atom catalysts through the second sphere effect by Haiyuan Zou, Siyan Shu, Wenqiang Yang, You-chiuan Chu, Minglun Cheng, Hongliang Dong, Hong Liu, Fan Li, Junhui Hu, Zhenbin Wang, Wei Liu, Hao Ming Chen, Lele Duan

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Genome assembly and population analysis of tetraploid marama bean reveal two distinct genome types by Jin Li, Christopher Cullis

“…Core gene families shared with other legumes were enriched in conserved pathways, such as photosynthesis and hormone signaling, which are fundamental for plant growth and survival. …”
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Evolutionary analysis of the DHHCs in Saccharinae by Hao Wen, Xinyu Liu, Xueting Zhao, Tingting Zhao, Cuilian Feng, Hailong Chang, Jungang Wang, Jishan Lin

“…Gene expression and trait correlation analysis revealed a significant negative correlation between SspDHHC28A expression in S. spontaneum and sucrose content, suggesting a role in photosynthesis product transport during rapid growth. …”
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Genotypic variability in stress responses of Sorghum bicolor under drought and salinity conditions by Yahya Alzahrani, Abdulbaki Shehu Abdulbaki, Abdulbaki Shehu Abdulbaki, Hameed Alsamadany

“…CRS-01 showed moderate resilience with the highest Na/K ratio and notable photosynthesis rate and relative water content, but was less consistent in biochemical markers under stress. …”
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Contribution of Dr. Vladimir A. Koshkin to the development of plant physiology at VIR by B. V. Rigin, I. G. Loskutov, I. I. Matvienko, Z. A. Shchedrina, R. A. Abdullaev, E. V. Zuev, E. E. Radchenko

“…He introduced his ideas on the mechanisms of photosynthesis intensity as well as the distribution of photoperiod sensitivity and the rate of development among plant species diversity. …”
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WRKY Transcription Factors Modulate the Flavonoid Pathway of <i>Rhododendron chrysanthum</i> Pall. Under UV-B Stress by Wang Yu, Xiangru Zhou, Jinhao Meng, Hongwei Xu, Xiaofu Zhou

“…These chlorophyll fluorescence parameters indicate that UV-B stress impaired photosynthesis in <i>R. chrysanthum</i>. Faced with the detrimental impact of UV-B radiation, <i>R. chrysanthum</i> is capable of mitigating its effects by modulating its flavonoid biosynthetic pathways to adapt positively to the stress. …”
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A high coverage reference transcriptome assembly of pea (<i>Pisum sativum</i> L.) mycorrhizal roots by A. M. Afonin, I. V. Leppyanen, O. A. Kulaeva, O. Y. Shtark, I. A. Tikhonovich, E. A. Dolgikh, V. A. Zhukov

“…This symbiosis is mutually beneficial, as AM fungi feed on plant photosynthesis products, in turn improving the efficiency of nutrient uptake from the environment. …”
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Comparative lipidome and transcriptome provide novel insights into zero-valent iron nanoparticle-treated Fremyella diplosiphon by Yavuz S. Yalcin, Samson Gichuki, Huan Chen, Anithachristy Sigamani Arumanayagam, Shyama Malika Malwalage, Viji Sitther

“…While the expression of iron uptake and ion channel genes was downregulated, genes coding for photosynthesis, pigment, and antioxidant enzymes were significantly (p < 0.05) upregulated in B481-SD treated with 3.2 mg L−1 nZVIs compared to the untreated control. …”
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The effect of drought stress on Pinellia ternata in terms of physiology and aquaporin genes after Arbuscular mycorrhizal fungal inoculation by Shuang Li, Yajun Liu, Han He, Yike Xu, Xiaochun Sun, Wenjing Huang

“…This study used the medicinal plant P. ternata as the experimental material to investigate the similarities and differences in photosynthesis, osmotic regulation, and antioxidant activity between arbuscular mycorrhizal and non-arbuscular mycorrhizal plants under drought stress. …”
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Fodder qualities of heterotic hybrids from intergeneric crosses between maize and eastern gamagrass by P. A. Panikhin, V. A. Sokolov

“…Maize, as a plant with the C4 pathway of photosynthesis, is highly efficient in transforming the energy of light into chemical bond energies, which ultimately leads to the highest yield per unit area of cultivated land. …”
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Harnessing Genetic Resistance in Maize and Integrated Rust Management Strategies to Combat Southern Corn Rust by Jiaying Chang, Shizhi Wei, Yueyang Liu, Zhiquan Zhao, Jie Shi

“…In severe cases, SCR may inhibit photosynthesis and cause early desiccation of maize, a decrease in kernel weight, and yield loss. …”
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Plant Species Composition and Community Perception Towards Landscaping Work Executed at Hawassa University-Main Campus, Ethiopia by Birhanu Kagnew, Firew Kebede

“…Plantation could also modify the micro-climate of the campus environment (94.3%) due to the plants photosynthesis process which produces O2 and takes in Co2 from the atmosphere. …”
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Identification and functional characterization of the RPP13 gene family in potato (Solanum tuberosum L.) for disease resistance by Baoqi Yuan, Chuang Li, Qingfeng Wang, Qi Yao, Xiaowei Guo, Yuhang Zhang, Zhongwei Wang

“…Combined with transcriptome-based functional enrichment analysis, this finding implies that StRPP13-11 may participate in disease defense by regulating photosynthesis-related genes and the dynamic balance of reactive oxygen species within the chloroplast. …”
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Tracking the correlation between spintronic structure and oxygen evolution reaction mechanism of cobalt-ruthenium-based electrocatalyst by Chen Wang, Chaoyuan Deng, Panlong Zhai, Xiaoran Shi, Wei Liu, Dingfeng Jin, Bing Shang, Junfeng Gao, Licheng Sun, Jungang Hou

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Genome-wide investigation of ABCB, PIN, and AUX/LAX gene families and their involvement in the formation of leaf protrusions in Sesamum indicum by Yanli Li, Yujia Ma, Huihui Gong, Xinxiao Cui, Xin Wang, Yuling Dong, Ying Chen, Junsheng Zhao

“…These regulatory interactions contribute to the formation of small protrusions in G1358 leaves and enhance the rate of photosynthesis. Our findings provide a theoretical foundation for understanding PAT genes and their roles in the environmental adaptation of sesame.…”
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Overexpression of StBBX14 Enhances Cold Tolerance in Potato by Heng Zhang, Mingjun Chen, Xiaobo Luo, Li Song, Fei Li

“…A Gene Ontology enrichment analysis revealed that photosynthesis, cell wall, thylakoid, transcription regulator activity, oxidoreductase activity and glucosyltransferase activity were significantly enriched in <i>OE-StBBX14</i> and WT. …”
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Enhanced Sweet Sorghum Growth and Soil Quality in Coastal Saline–Alkali Soils Through Organic Acid-Containing Bio-Based Materials and Microbial Synergy by Wei Xue, Shengjie Yang, Xiaoyu Liu, Man Qian, Huiyan Wang, He Yang, Xinbao Liu, Yixin Shen, Jianlong Li, Zhengguo Sun

“…The organic acid bio-modifier significantly alleviated salinity stress in sweet sorghum, reducing soil salinity, increasing soil nutrient levels, enhancing root vigor and photosynthesis, and improving plant morphology, resulting in higher biomass yields. …”
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EFFICIENT BIOMASS CONVERSION PROCESS TO SUSTAINABLE ENERGY by Samuel Oludayo ALAMU, Marc J Louise CABALLES, Xuejun QIAN, Seong LEE, James G. HUNTER Jr.

“…On the other hand, burning of biomass waste has been largely considered as a better approach due to the fact that the CO2 generated during the process is being balanced by an equivalent amount that plants capture through photosynthesis while they are growing, thus making biomass a carbon-neutral energy source.  …”
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Plant Species Composition and Community Perception Towards Landscaping Work Executed at Hawassa University-Main Campus, Ethiopia by Birhanu Kagnew, Firew Kebede

“…Plantation could also modify the micro-climate of the campus environment (94.3%) due to the plants photosynthesis process which produces O2 and takes in Co2 from the atmosphere. …”
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Physiological and Biochemical Responses of Ulva prolifera and Ulva linza to Cadmium Stress by He-ping Jiang, Bing-bing Gao, Wen-hui Li, Ming Zhu, Chun-fang Zheng, Qing-song Zheng, Chang-hai Wang

“…Thus, U. linza has a better adaptation to Cd2+ than U. prolifera, which was due mainly to higher nutrient content and stronger OAA and photosynthesis in U. linza.…”
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