Seedless mutant ‘Wuzi Ougan’ (Citrus suavissima Hort. ex Tanaka ‘seedless’) and the wild type were compared by iTRAQ-based quantitative proteomics and integratedly analyzed with transcriptome to improve understanding of male sterility

Zhang, Chi; Yu, Dihu; Ke, Fuzhi; Zhu, Mimi; Xu, Jianguo; Zhang, Min

doi:10.1186/s12863-018-0693-9

Cited by 24 publications

(24 citation statements)

References 66 publications

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“…The transcript levels of DEGs in tomato leaves indicated poorly their according proteins in response to HT. This also confirmed some previous studies of transcriptome and genome based on similar conditions (Liu et al., 2018; Lou et al., 2018; Zhang et al., 2018). For example, 122,081 genes and 1,210 DEGs, but only 4,582 proteins and 300 DEPs, were identified in loquat under cold stress (Lou et al., 2018).…”

Section: Discussionsupporting

confidence: 92%

“…Moreover, the best method is integrating transcriptome and proteome approaches (e.g., RNA‐Seq, iTRAQ) to provide more information (Lou, Wang, Ni, Gao, & Iqbal, 2018). It has been reported that the combination of RNA‐Seq and iTRAQ is used to reveal the molecular and physiological changes in certain biological processes and developmental stages or responses to various abiotic and biological changes (Liu, Xing, Fang, Ai, & Cheng, 2018; Lou et al., 2018; Zhang et al., 2018). However, few studies have been reported in plants under HT stress.…”

Section: Introductionmentioning

confidence: 99%

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Integrated proteome and transcriptome analyses revealed key factors involved in tomato (Solanum lycopersicum) under high temperature stress

Ding

Qian

et al. 2020

Food and Energy Security

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Section: Discussionsupporting

confidence: 92%

Section: Introductionmentioning

confidence: 99%

Integrated proteome and transcriptome analyses revealed key factors involved in tomato (Solanum lycopersicum) under high temperature stress

Ding

Qian

et al. 2020

Food and Energy Security

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“…Proteome analyses in cotton indicated that the differentially expressed proteins (DEPs) mainly involved in pyruvate, carbohydrate and fatty acid metabolism had been identified between the male-sterile line 1355A and the male-fertile line 1355B (9) . Integrated analysis of the transcriptome and proteome can afford a complete picture in regard to the molecular mechanism of CMS, and have been reported in Chinese cabbage (12) , Brassica napus (13) , Pepper (14) , Citrus suavissima (15) involved CMS studies. The conjoint analysis of the transcriptome and proteome in Shaan2A CMS and its maintainer line revealed that the sterility gene from mitochondrion might suppress the expression of relevant transcription factor genes in the nucleus, affecting early anther development (13) .…”

Section: Introductionmentioning

confidence: 99%

Transcriptomic and Proteomic Analyses of a New Cytoplasmic Male Sterile Line with wildGossypium bickii.Genetic Background

Zhao

Wang

et al. 2020

Preprint

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39Cotton is an important fiber crop but has serious effects of heterosis, in which cytoplasmic male 40 sterility (CMS) being the major cause of heterosis in plants. However, there are no studies done on 41 CMS Yamian A in cotton with the genetic background of the Australian wild Gossypium bickii. 42 Transcriptomic and proteomic results showed that UDP-glucosyltransferase -in the nucleus, 60S 43 ribosomal protein L13a-in the cytoplasm, ribulose-1,5-bisphosphate carboxylase/oxygenase -in the 44 chloroplast, glutathione S-transferase -in the cytoplasm, and ATP synthase F1 subunit 1 -in the 45 mitochondrion were upregulated; while low molecular weight heat shock protein -in the chloroplast 46 and ATP synthase D chain-in the mitochondrion were down-regulated expression at the microspore 47 58 Cotton is an important cash crop with high-quality fiber, edible oil, and protein which is mainly 59 used as animal feeds (1) . Heterosis in cotton is quite apparent and has been widely used in yield quality, 60 and resistance studies in cotton (2) . The adoption of the production of hybrid seeds is the most 61 important link among some links of cotton heterosis use. At present, the castration in the production 62 of hybrid seeds often relies on hand emasculation and male-sterile lines including chemically induced 63 male sterility (IMS), genic male sterility (GMS), and cytoplasmic male sterility (CMS) (3) . The 64 production practice showed that CMS is an effective way of heterosis utilization in crop and widely 65 used to produce hybrid seeds, because it eliminates the need for artificial emasculation, saves 66 manpower and material resources, enhance the purity of hybrid seeds and increases the output of 67 crops (3, 4) . All over the world, cotton studies started in the 1960s, since then a number of germplasms 68 have been developed, such as G. arboreum L, G. harknessii Brandegee, G. trilobum (DC.) Skov., G. 69 hirsutum, G. barbadense L., among others. However, there is no report on CMS in cotton with 70 genetic background of Australian wild Gossypium bickii, which has been reported despite the 71 enormous effects of heterosis in cotton germplasm development. 72 In recent years, advancement in molecular technology, has enabled breeders and molecular 73 researchers to identify various plant transcription factors, genes and explore protein expression at the 74 translational, transcriptome and proteome level, such as the CMS studies of the Chinese cabbage (5) , 75 turnip (6) , Cucumis melo L. (7) , cotton (8,9) , rice (10) , Brassica napus L. (11) . Transcriptomic analysis in 76 5 cotton (CMS-D8) revealed that the reactive oxygen species (ROS) were released from mitochondria 77 and served as important signal molecules in the nucleus, causing the formation of abnormal 78 tapetum (8) . Proteome analyses in cotton indicated that the differentially expressed proteins (DEPs) 79 mainly involved in pyruvate, carbohydrate and fatty acid metabolism had been identified between the 80 male-sterile line 1355A a...

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“…The middle layer cells are located between the tapetum and endothecium, and play an important role in the differentiation and function of tapetum cells (Ma et al, 2007;Roque et al, 2007). In recent years, with the rapid development of high-throughput sequencing technology, specifically transcriptomic sequencing, has been widely used in the study of male sterility in herbs or cereals such as Salvia miltiorrhiza Bunge (Yu et al, 2021), wheat (Liu et al, 2020aLiu et al, 2020b), Cucumis melo (Dai et al, 2019), onion (Yuan et al, 2018) and woody plant such as Vernicia fordii (Liu et al, 2019a;Liu et al, 2019b), and Citrus suavissima (Zhang et al, 2018a;Zhang et al, 2018b). However, to our knowledge, no study has used a transcriptomics approach to investigate male sterility in Prunus.…”

Section: Introductionmentioning

confidence: 99%

Transcriptomic analysis reveals candidate genes for male sterility in Prunus sibirica

Chen

Zhang

et al. 2021

PeerJ

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Background The phenomenon of male sterility widely occurs in Prunus sibirica and has a serious negative impact on yield. We identified the key stage and cause of male sterility and found differentially expressed genes related to male sterility in Prunus sibirica, and we analyzed the expression pattern of these genes. This work aimed to provide valuable reference and theoretical basis for the study of reproductive development and the mechanisms of male sterility in Prunus sibirica. Method The microstructures of male sterile flower buds and male fertile flower buds were observed by paraffin section. Transcriptome sequencing was used to screen genes related to male sterility in Prunus sibirica. Quantitative real-time PCR analysis was performed to verify the transcriptome data. Results Anther development was divided into the sporogenous cell stage, tetrad stage, microspore stage, and pollen maturity stage. Compared with male fertile flower buds, in the microspore stage, the pollen sac wall tissue in the male sterile flower buds showed no signs of degeneration. In the pollen maturity stage, the tapetum and middle layer were not fully degraded, and anther development stopped. Therefore, the microspore stage was the key stage for anther abortion , and the pollen maturity stage was the post stage for anther abortion. A total of 4,108 differentially expressed genes were identified by transcriptome analysis. Among them, 1,899 were up-regulated, and 2,209 were down-regulated in the transcriptome of male sterile flower buds. We found that “protein kinase activity”, “apoptosis process”, “calcium binding”, “cell death”, “cytochrome c oxidase activity”, “aspartate peptidase activity”, “cysteine peptidase activity” and other biological pathways such as “starch and sucrose metabolism” and “proteasome” were closely related to male sterility in Prunus sibirica. A total of 331 key genes were preliminarily screened. Conclusion The occurrence of male sterility in Prunus sibirica involved many biological processes and metabolic pathways. According to the results of microstructure observations, related physiological indexes determination and transcriptome analysis, we reveal that the occurrence of male sterility in Prunus sibirica may be caused by abnormal metabolic processes such as the release of cytochrome c in the male sterile flower buds, the imbalance of the antioxidant system being destroyed, and the inability of macromolecular substances such as starch to be converted into soluble small molecules at the correct stage of reproductive development, resulting in energy loss. As a result, the tapetum cannot be fully degraded, thereby blocking anther development, which eventually led to the formation of male sterility.

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Seedless mutant ‘Wuzi Ougan’ (Citrus suavissima Hort. ex Tanaka ‘seedless’) and the wild type were compared by iTRAQ-based quantitative proteomics and integratedly analyzed with transcriptome to improve understanding of male sterility

Cited by 24 publications

References 66 publications

Integrated proteome and transcriptome analyses revealed key factors involved in tomato (Solanum lycopersicum) under high temperature stress

Integrated proteome and transcriptome analyses revealed key factors involved in tomato (Solanum lycopersicum) under high temperature stress

Transcriptomic and Proteomic Analyses of a New Cytoplasmic Male Sterile Line with wildGossypium bickii.Genetic Background

Transcriptomic analysis reveals candidate genes for male sterility in Prunus sibirica

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