The Chloroplastic Small Heat Shock Protein Gene KvHSP26 Is Induced by Various Abiotic Stresses in Kosteletzkya virginica by Xiaohua Liu, Lizi Zhao, Jianzhao Li, Lijun Duan, Kai Zhang, Xuqiang Qiao, Weihuan Li, Chengchao Zheng, Xiaoli Tang, Hongxia Zhang

“…Amino acid sequence alignment and phylogenetic analysis demonstrated that KvHSP26 shared 30%-77% homology with other sHSPs from Arabidopsis, cotton, durian, salvia, and soybean. Quantitative real-time PCR (qPCR) assays exhibited that KvHSP26 was constitutively expressed in different tissues such as leaves, stems, and roots, with a relatively higher expression in leaves. …”
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Characterization of demethylating DNA glycosylase ROS1 from Nicotiana tabacum L. by D. V. Petrova, N. V. Permyakova, I. R. Grin, D. O. Zharkov

“…The genome of the model plant Arabidopsis thaliana encodes four paralogous proteins, two of which, DEMETER (DME) and REPRESSOR OF SILENCING 1 (ROS1), possess 5-methylcytosine-DNA glycosylase activity and are necessary for the regulation of development, response to infections and abiotic stress and silencing of transgenes and mobile elements. …”
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Cytokinin Oxidase (CKX) Family Members in ‘duli’ (<i>Pyrus betulifolia Bunge</i>): Genome-Wide Identification and Tissue Expression Profile Under Abiotic Stress by Weimin Wang, Ting Xie, Jiaojiao He, Kuozhen Nie, Zijuan He, Yuxing Zhang, Yingli Li

“…Comparative analysis revealed 10 homologous gene pairs between ‘duli’ and <i>Arabidopsis</i> and 14 pairs between ‘duli’ and apple. …”
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Diversity and Plant Growth-Promoting Properties of <i>Rhodiola rosea</i> Root Endophytic Bacteria by Inga Tamošiūnė, Muhammad Fahad Hakim, Odeta Buzaitė, Vidmantas Stanys, Jurgita Vinskienė, Elena Andriūnaitė, Danas Baniulis

“…Co-cultivation of 45 selected isolates with germinating Arabidopsis seedlings revealed 18 and 5 isolates that resulted in more than a 20% increase in root or shoot growth, respectively. …”
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Comprehensive identification, characterization and expression analyses of the class III POD gene family in water lily (Nymphaea colorata) by Wasi Ullah Khan, Wasi Ullah Khan, Latif Ullah Khan, Noor Muhammad Khan, Ji Zhang, Wang Wenquan, Wang Wenquan, Fei Chen, Fei Chen

“…Through comparative maximum-likelihood phylogenetic analysis, these genes were categorized into 10 groups, along with two other species, Arabidopsis thaliana and Nymphaea thermarum. Notably, the largest group, group-c, comprised 32 distinct types of NcPOD proteins. …”
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Expression and localization of two β-carbonic anhydrases in Bienertia, a single-cell C4 plant by Tho Nguyen, Nakyoung Lee, Fabian J. Frömling, Toni L. Meister, Toni L. Meister, Toni L. Meister, Jung Sun Kim, Sascha Offermann, Inhwan Hwang

“…BsCAβ2 was localized exclusively to the plasma membrane in Bienertia and when expressed heterologously in the C3 Arabidopsis. In contrast, BsCAβ1 largely localized to the cytosol together with a portion to the plasma membrane (PM) in both plants. …”
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Stress granules sequester autophagy proteins to facilitate plant recovery from heat stress by Xibao Li, Jun Liao, Ka Kit Chung, Lei Feng, Yanglan Liao, Zhixin Yang, Chuanliang Liu, Jun Zhou, Wenjin Shen, Hongbo Li, Chengwei Yang, Xiaohong Zhuang, Caiji Gao

“…In this study, we provide compelling evidence for the translocation of key autophagy components, including the ATG1/ATG13 kinase complex (ATG1a, ATG13a), PI3K complex (ATG6, VPS34), and ATG8-PE system (ATG5), to HS-induced stress granules (SGs) in Arabidopsis thaliana. As HS subsides, SGs disassemble, leading to the re-translocation of ATG proteins back to the cytoplasm, thereby facilitating the rapid activation of autophagy to degrade HS-induced ubiquitinated aggregates. …”
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TaWI12 may be involved in pistillody and leaf cracking in wheat by Yuhuan Guo, Yan Zhang, Yuhao Li, Yichao Wu, Mingli Liao, Zhengsong Peng, Zaijun Yang, Yonghong Zhou

“…To clarify the characteristics and functions of TaWI12 homoeologs, we obtained transgenic positive plants of Arabidopsis thaliana and observed significant filament shortening and decrease. …”
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Morphological, Physiological, and Molecular Responses to Heat Stress in Brassicaceae by Iram Batool, Ahsan Ayyaz, Tongjun Qin, Xiaofen Wu, Weiqi Chen, Fakhir Hannan, Zafar Ullah Zafar, Muhammad Shahbaz Naeem, Muhammad Ahsan Farooq, Weijun Zhou

“…This review summarizes recent research on the genetic and physiological impact of heat stress in the Brassicaceae family, as well as in model plants <i>Arabidopsis</i> and rice. Several studies show that extreme temperature fluctuations during crucial growth stages negatively affect plants, leading to impaired growth and reduced seed production. …”
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Genome-Wide Identification and In Silico Expression Analysis of <i>CCO</i> Gene Family in <i>Citrus clementina</i> (Citrus) in Response to Abiotic Stress by Sadaf Sarwar, Adnan Sami, Muhammad Zeshan Haider, Layba Tasawar, Jannat Akram, Arsalan Ahmad, Muhammad Shafiq, Haitham E. M. Zaki, Gabrijel Ondrasek, Muhammad Shafiq Shahid

“…Clementine</i> and <i>Arabidopsis thaliana</i> models was conducted to understand their functional characteristics. …”
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Cloning and Functional Analysis of <i>BraTSD2</i> Associated with Root Swelling in Turnip (<i>Brassica rapa</i> L.) by Wenyue Huang, Shifan Zhang, Fei Li, Hui Zhang, Rifei Sun, Guoliang Li, Shujiang Zhang

“…The promoter of the turnip <i>BraTSD2</i> gene was expressed throughout the whole plant in <i>Arabidopsis thaliana</i>. Phenotypic observation and analysis of <i>A. thaliana</i> overexpression <i>BraTSD2</i> transgenic lines showed that plants overexpressing <i>BraTSD2</i> had fewer primary and lateral roots compared to the wild type, with lighter leaf color, and delayed development and flowering. …”
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THE SOLANUM TUBEROSUM KNOWLEDGE BASE: THE SECTION ON MOLECULAR-GENETIC REGULATION OF METABOLIC PATHWAYS by T. V. Ivanisenko, O. V. Saik, P. S. Demenkov, V. K. Khlestkin, E. K. Khlestkina, N A. Kolchanov, V. А. Ivanisenko

“…This article describes the current version of the SOLANUM TUBEROSUM knowledge base developed from an extensive analysis of scientific publications on the moleculargenetic regulation of metabolic pathways in potatoes, as well as model plant organisms (maize, rice, Arabidopsis  thaliana). In total, about 9,000 full-text articles and more than 130,000 abstracts of PubMed were analyzed. …”
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A single-cell and spatial wheat root atlas with cross-species annotations delineates conserved tissue-specific marker genes and regulators by Yuji Ke, Vincent Pujol, Jasper Staut, Lotte Pollaris, Ruth Seurinck, Thomas Eekhout, Carolin Grones, Maite Saura-Sanchez, Michiel Van Bel, Marnik Vuylsteke, Andrea Ariani, Christophe Liseron-Monfils, Klaas Vandepoele, Yvan Saeys, Bert De Rybel

“…Here, we generated a single-cell RNA sequencing atlas of soil-grown wheat roots and annotated cluster identities by transferring annotations from publicly available datasets in wheat, rice, maize, and Arabidopsis. The predictions from our orthology-based annotation approach were next validated using untargeted spatial transcriptomics. …”
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Diversity in mitotic DNA repair efficiencies between commercial inbred maize lines and native Central American purple landraces by Carlos Víquez-Zamora, Sergio Castro-Pacheco, María Viñas, Pablo Bolaños-Villegas

“…Protein sequence analysis was done in UniProt to compare the resulting aminoacid sequences from maize to the available sequences from Arabidopsis thaliana ecotype Col-0 (ATM protein code: Q9M3G7). …”
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The White Clover Single-Copy Nuclear Gene <i>TrNAC002</i> Promotes Growth and Confers Drought Resistance in Plants Through Flavonoid Synthesis by Youzhi Zhang, Wei Fu, Qi Pu, Zhirui He, Zhou Li, Lin Liu, Xiao Ma, Yan Peng

“…Subcellular localization demonstrates that TrNAC002 is located in the nucleus, while the transcriptional activity assay indicates its transcriptional activity. <i>Arabidopsis</i> plants overexpressing <i>TrNAC002</i> (OE) exhibit enlarged leaves and increased lateral root growth compared to the wild type (WT). …”
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Characterization of MADS-Box Gene Family in <i>Isatis indigotica</i> and Functional Study of <i>IiAP1</i> in Regulating Floral Transition and Formation by Yanqin Ma, Yanhong Lan, Ju Li, Haicheng Long, Yujie Zhou, Zhi Li, Mingjun Miao, Jian Zhong, Haie Wang, Wei Chang, Ziqin Xu, Liang Yang

“…The ectopic expression of <i>IiAP1</i> in Arabidopsis resulted in early flowering and abnormal development of floral organs. …”
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Genome-wide identification of the adaptor protein complexes and its expression patterns analysis in foxtail millet (Setaria italica L.) by Dan Wang, Min Su, Jian-Hong Hao, Zi-Dong Li, Shuqi Dong, Xiangyang Yuan, Xiaorui Li, Lulu Gao, Xiaoqian Chu, Guanghui Yang, Jia-Gang Wang, Huiling Du

“…Out of the 33 SiAP complex genes, 24 exhibited collinear relationships with Setaria viridis, while only one showed relationship with Arabidopsis thaliana. Gene structure and motif composition were investigated to understand the function and evolution of these SiAP complex genes. …”
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Pseudomonas syringae lytic transglycosylase HrpH interacts with host ubiquitin ligase ATL2 to modulate plant immunity by Jun-Zhou Li, Yi-Lin Gu, Wei Zhang, Shen Cong, Ruo-Na Wang, Yi-Nan Ma, Ya Jin, Hai-Lei Wei

“…HrpH and its SLT domain induce host cell death and suppress pattern-triggered immunity (PTI). Transgenic hrpH-Arabidopsis plants exhibit decreased PTI responses and enhanced susceptibility to Pst DC3000ΔhrcQ-U. …”
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Genome-wide identification of MGT gene family in soybean (Glycine max) and their expression analyses under magnesium stress conditions by Ammar Anwar, Junaid Akhtar, Saba Aleem, Maida Aleem, Muhammad Khuram Razzaq, Saud Alamri, Qasim Raza, Iram Sharif, Arooj Iftikhar, Shehreen Naseer, Zaheer Ahmed, Iqrar Ahmed Rana, Waheed Arshad, Muhammad Imran Khan, Javaid Akhter Bhat, Muqadas Aleem, Abdel-Rhman Z. Gaafar, Mohamed S. Hodhod

“…Phylogenetic analysis classified GmMGTs into three subgroups, NIPA, MRS2/MGT, and CorA, which showed little homology with MGTs of Arabidopsis thaliana and Oryza sativa members and clustered tightly with GmMGTs. …”
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Genome-wide identification of the Sec14 gene family and the response to salt and drought stress in soybean (Glycine max) by Jinyu Zhang, Liying Zou, Li Wang, Dongchao Zhang, Ao Shen, Yongqi Lei, Maoni Chao, Xinjuan Xu, Zhiwei Xue, Zhongwen Huang

“…Based on the classification method used for Arabidopsis Sec14 members, GmSec14s can be categorized into three classes: GmPITP1 to GmPITP37, GmSFH1 to GmSFH25, and GmPATL1 to GmPATL15. …”
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