1.Mechanisms of alternative splicing in regulating plant flowering: a review.
Huanhuan LU ; Qinlin DENG ; Mengdan WU ; Zhimin WANG ; Dayong WEI ; Hebing WANG ; Huafeng XIANG ; Hongcheng ZHANG ; Qinglin TANG
Chinese Journal of Biotechnology 2021;37(9):2991-3004
Flowering is a critical transitional stage during plant growth and development, and is closely related to seed production and crop yield. The flowering transition is regulated by complex genetic networks, whereas many flowering-related genes generate multiple transcripts through alternative splicing to regulate flowering time. This paper summarizes the molecular mechanisms of alternative splicing in regulating plant flowering from several perspectives, future research directions are also envisioned.
Alternative Splicing/genetics*
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Arabidopsis/metabolism*
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Arabidopsis Proteins/genetics*
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Flowers/genetics*
2.Expression and function analysis of FaCO gene in Festuca arundinacea.
Xi CHEN ; Ying CHEN ; Xiaoxia LIU ; Jianhong SHU ; Xiaoli WANG ; Degang ZHAO
Chinese Journal of Biotechnology 2021;37(4):1324-1333
Photoperiod plays an important role in transformation from vegetative growth to reproductive growth in plants. CONSTANS (CO), as a unique gene in the photoperiod pathway, responds to changes of day length to initiate flowering in the plant. In this study, the expression level of FaCONSTANS (FaCO) gene under long-day, short-day, continuous light and continuous darkness conditions was analyzed by real-time quantitative PCR. We constructed the over-expression vector p1300-FaCO and infected into Arabidopsis thaliana by Agrobacterium-mediated method. We constructed the silencing vector p1300-FaCO-RNAi and infected into Festuca arundinacea by Agrobacterium-mediated method. The expression of FaCO gene was regulated by photoperiod. The over-expression of FaCO promoted flowering in wild type of Arabidopsis thaliana under long day condition and rescued the late flowering phenotype in co-2 mutant of Arabidopsis thaliana. Silencing FaCO gene in Festuca arundinacea by RNAi showed late-flowering phenotype or always kept in the vegetative growth stage. Our understanding the function of FaCO in flowering regulation will help further understand biological function of this gene in Festuca arundinacea.
Arabidopsis/metabolism*
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Arabidopsis Proteins/genetics*
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Festuca/metabolism*
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Flowers/genetics*
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Gene Expression Regulation, Plant
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Photoperiod
3.Molecular mechanisms of RPD3 family members in regulating plant development and environmental responses.
Qinlin DENG ; Huanhuan LU ; Mengdan WU ; Maolin RAN ; Zhimin WANG ; Dayong WEI ; Qinglin TANG
Chinese Journal of Biotechnology 2021;37(8):2645-2657
Lysine acetylation is one of the major post-translational modifications and plays critical roles in regulating gene expression and protein function. Histone deacetylases (HDACs) are responsible for the removal of acetyl groups from the lysines of both histone and non-histone proteins. The RPD3 family is the most widely studied HDACs. This article summarizes the regulatory mechanisms of Arabidopsis RPD3 family in several growth and development processes, which provide a reference for studying the mechanisms of RPD3 family members in regulating plant development. Moreover, this review may provide ideas and clues for exploring the functions of other members of HDACs family.
Arabidopsis/metabolism*
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Histone Deacetylases/metabolism*
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Histones
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Plant Development/genetics*
4.Expression, purification and characterization of arabinose-5-phosphate isomerase from Arabidopsis thaliana.
Yaping QU ; Zhijun ZHANG ; Chaoli WANG ; Lei WANG ; Linjun WU
Chinese Journal of Biotechnology 2016;32(8):1060-1069
Arabinose-5-phosphate isomerase (KdsD) is the first key limiting enzyme in the biosynthesis of 3-deoxy-D-manno-octulosonate (KDO). KdsD gene was cloned into prokaryotic expression vector pET-HTT by seamless DNA cloning method and the amount of soluble recombinant protein was expressed in a soluble form in E. coli BL21 (DE3) after induction of Isopropyl β-D-1-thiogalactopyranoside (IPTG). The target protein was separated and purified by Ni-NTA affinity chromatography and size exclusion chromatography, and its purity was more than 85%. Size exclusion chromatography showed that KdsD protein existed in three forms: polymers, dimmers, and monomers in water solution, different from microbial KdsD enzyme with the four polymers in water solution. Further, the purified protein was identified through Western blotting and MALDI-TOF MASS technology. The results of activity assay showed that the optimum pH and temperature of AtKdsD isomerase activities were 8.0 and 37 ℃, respectively. The enzyme was activated by metal protease inhibitor EDTA (5 mmol/L) and inhibited by some metal ions at lower concentration, especially with Co²⁺ and Cd²⁺ metal ion. Furthermore, when D-arabinose-5-phosphate (A5P) was used as substrate, Km and Vmax of AtKdsD values were 0.16 mmol/L, 0.18 mmol/L·min. The affinity of AtKdsD was higher than KdsD in E. coli combined with substrate. Above results have laid a foundation for the KdsD protein structure and function for its potential industrial application.
Aldose-Ketose Isomerases
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biosynthesis
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Arabidopsis
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enzymology
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Arabidopsis Proteins
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biosynthesis
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Cloning, Molecular
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Escherichia coli
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metabolism
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Metals
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Pentosephosphates
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Recombinant Proteins
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biosynthesis
5.CircPlant: An Integrated Tool for circRNA Detection and Functional Prediction in Plants.
Peijing ZHANG ; Yongjing LIU ; Hongjun CHEN ; Xianwen MENG ; Jitong XUE ; Kunsong CHEN ; Ming CHEN
Genomics, Proteomics & Bioinformatics 2020;18(3):352-358
The recent discovery of circular RNAs (circRNAs) and characterization of their functional roles have opened a new avenue for understanding the biology of genomes. circRNAs have been implicated to play important roles in a variety of biological processes, but their precise functions remain largely elusive. Currently, a few approaches are available for novel circRNA prediction, but almost all these methods are intended for animal genomes. Considering that the major differences between the organization of plant and mammal genomes cannot be neglected, a plant-specific method is needed to enhance the validity of plant circRNA identification. In this study, we present CircPlant, an integrated tool for the exploration of plant circRNAs, potentially acting as competing endogenous RNAs (ceRNAs), and their potential functions. With the incorporation of several unique plant-specific criteria, CircPlant can accurately detect plant circRNAs from high-throughput RNA-seq data. Based on comparison tests on simulated and real RNA-seq datasets from Arabidopsis thaliana and Oryza sativa, we show that CircPlant outperforms all evaluated competing tools in both accuracy and efficiency. CircPlant is freely available at http://bis.zju.edu.cn/circplant.
Arabidopsis/metabolism*
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Oryza/metabolism*
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RNA, Circular/metabolism*
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RNA, Plant/metabolism*
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Sequence Analysis, RNA/methods*
6.Application of new method for data processing in metabonomic studies.
Jing LI ; Xiao-Jian WU ; Chang-Xiao LIU ; Ying-Jin YUAN
Acta Pharmaceutica Sinica 2006;41(1):47-53
AIMTo search for and application of new method for data processing in metabonomic studies.
METHODSThe paper proposed that in the processing of metabonomic data, robust PCA method can be used to diagnose outliers; and unstable variables judged by comparison between difference within class and difference among classes should be excluded before data analysis; moreover, the data should be properly scaled before further processing. The proposed methods were used to preprocess metabolomic data of four genotypes of the Arabidopsis thaliana plants.
RESULTS AND CONCLUSIONThe outcome demonstrated that the application of these methods can obviously improve clustering and biomarker identifying results.
Algorithms ; Arabidopsis ; genetics ; metabolism ; Arabidopsis Proteins ; genetics ; metabolism ; Automatic Data Processing ; Gene Expression Profiling ; Gene Expression Regulation, Plant ; Genotype ; Metabolism ; Principal Component Analysis ; Proteome ; metabolism ; Proteomics ; methods
7.Prokaryotic expression, purification and functional identification of epidermal pattern factors in Arabidopsis thaliana.
Zhuping JIN ; Cheng LI ; Lei WANG ; Yanxi PEI
Chinese Journal of Biotechnology 2020;36(4):792-800
Stomatal density is important for crop yield. In this paper, we studied the epidermal pattern factors (EPFs) related to stomatal development. Prokaryotic expression vectors were constructed to obtain EPFs. Then the relationship between EPFs and hydrogen sulfide (H2S) was established. First, AtEPF1, AtEPF2 and AtEPFL9 were cloned and constructed to pET28a vectors. Then recombinant plasmids pET28a-AtEPF1, pET28a-AtEPF2 and pET28a-AtEPFL9 were digested and sequenced, showing successful construction. Finally, they were transformed into E. coli BL21(DE3) separately and induced to express by isopropyl β-D-galactoside (IPTG). The optimized expression conditions including IPTG concentration (0.5, 0.3 and 0.05 mmol/L), temperature (28 °C, 28 °C and 16 °C) and induction time (16 h, 16 h and 20 h) were obtained. The bands of purified proteins were about 18 kDa, 19 kDa and 14.5 kDa, respectively. In order to identify their function, the purified AtEPF2 and AtEPFL9 were presented to Arabidopsis thaliana seedlings. Interestingly, the H2S production rate decreased or increased compared with the control, showing significant differences. That is, EPFs affected the production of endogenous H2S in plants. These results provide a foundation for further study of the relationship between H2S and EPFs on stomatal development, but also a possible way to increase the yield or enhance the stress resistance.
Arabidopsis
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genetics
;
metabolism
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Arabidopsis Proteins
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genetics
;
isolation & purification
;
metabolism
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Escherichia coli
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genetics
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Genetic Vectors
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genetics
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Hydrogen Sulfide
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metabolism
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Plasmids
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genetics
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Seedlings
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metabolism
8.CLE42 binding induces PXL2 interaction with SERK2.
Shulin MOU ; Xiaoxiao ZHANG ; Zhifu HAN ; Jiawei WANG ; Xinqi GONG ; Jijie CHAI
Protein & Cell 2017;8(8):612-617
Arabidopsis
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chemistry
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genetics
;
metabolism
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Arabidopsis Proteins
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chemistry
;
genetics
;
metabolism
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Crystallography, X-Ray
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Intercellular Signaling Peptides and Proteins
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chemistry
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genetics
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metabolism
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Protein Conformation
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Protein-Serine-Threonine Kinases
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chemistry
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genetics
;
metabolism
9.Identification of glucose-responsive elements in the promoter of UDP-L-rhamnose biosynthesis gene RHM1 in Arabidopsis thaliana.
Qinmei JI ; Jinfeng WANG ; Ling JIANG ; Songdong SHEN ; Yunliu FAN ; Chunyi ZHANG
Chinese Journal of Biotechnology 2008;24(9):1531-1537
In plants, UDP-L-rhamnose is one of the major components of cell wall skeleton. Rhamnose synthase plays a key role in rhamnose synthesis which converts UDP-D-glucose into UDP-L-rhamnose in plants. In this study, we isolated the 1058 bp promoter region of the rhamnose synthase gene AtRHM1 from Arabidopsis genome by PCR, and created a series of deletions of AtRHM1 promoter ranging from -931 bp to +127 bp. The full length of the promoter and its deletion derivatives fused with GUS reporter gene were introduced into wild-type Arabidopsis by Agrobacterium-mediated transformation respectively. The GUS staining and GUS enzymatic activity assay showed that the expression of AtRHM1 is induced at transcriptional level by glucose and the regulatory elements involved in the glucose response are located in the region of -931 bp - -752 bp which contains three G-box motifs.
Arabidopsis
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genetics
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Arabidopsis Proteins
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genetics
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Glucosyltransferases
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genetics
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Plants, Genetically Modified
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genetics
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Promoter Regions, Genetic
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Uridine Diphosphate Glucose
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genetics
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metabolism
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Uridine Diphosphate Sugars
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genetics
;
metabolism
10.Regulation of crop agronomic traits and abiotic stress responses by brassinosteroids: a review.
Liming WANG ; Ruizhen YANG ; Jiaqiang SUN
Chinese Journal of Biotechnology 2022;38(1):34-49
Plant adaptation to adverse environment depends on transmitting the external stress signals into internal signaling pathways, and thus forming a variety of stress response mechanisms during evolution. Brassinosteroids (BRs) is a steroid hormone and widely involved in plant growth, development and stress response. BR is perceived by cell surface receptors, including the receptor brassinosteroid-insensitive 1 (BRI1) and the co-receptor BRI1-associated-kinase 1 (BAK1), which in turn trigger a signaling cascade that leads to the inhibition of BIN2 and activation of BES1/BZR1 transcription factors. BES1/BZR1 can directly regulate the expression of thousands of downstream responsive genes. Studies in the model plant Arabidopsis thaliana have shown that members of BR biosynthesis and signal transduction pathways, particularly protein kinase BIN2 and its downstream transcription factors BES1/BZR1, can be extensively regulated by a variety of environmental factors. In this paper, we summarize recent progresses on how BR biosynthesis and signal transduction are regulated by complex environmental factors, as well as how BR and environmental factors co-regulate crop agronomic traits, cold and salt stress responses.
Arabidopsis/metabolism*
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Brassinosteroids/pharmacology*
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DNA-Binding Proteins/metabolism*
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Gene Expression Regulation, Plant
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Stress, Physiological