De novo Transcriptome Assembly of Myllocerinus aurolineatus Voss in Tea Plants

Xie, Xin; Jiang, Junmei; Chen, Meiqing; Huang, Maoxi; Jin, Linhong; Li, Xiangyang

doi:10.3389/fsufs.2021.631990

Cited by 3 publications

References 27 publications

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Development of EST-SSR markers in Bergenia ciliata using de novo transcriptome sequencing

Singh,

Tiwari,

Tiwari

et al. 2024

Genome

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Bergenia ciliata is an important herb predominantly found in the Indian Himalayan Region (IHR). It is widely used in medicines, healthcare systems, cosmetics, food, fodder, and ornamental purposes. The Illumina sequencing and de novo transcriptome assembly were carried out in B. ciliata to develop and identify simple sequence repeat markers. A total of 18,226 SSRs were identified wherein dinucleotides were found to be abundant (47.88%) followed by mononucleotides (35.03%), and trinucleotides repeat (15.88%). A total of 11,839 EST-SSR primers were designed, of which 96 primer pairs were commercially synthesized. Finally, 17 primer pairs revealed clear, distinct polymorphic bands and these primers were validated with 40 diverse B. ciliata accessions. The present study revealed moderate level of genetic diversity (Ho =0.389, He =0.542 and PIC=0.513). Furthermore, the transcriptome data and EST-SSR markers generated during the present investigation could be an important genetic resource for functional genomics, population studies, and conservation genetics of the genus Bergenia.

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Development of EST-SSR markers in Bergenia ciliata using de novo transcriptome sequencing

Singh,

Tiwari,

Tiwari

et al. 2024

Genome

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Key factors for differential drought tolerance in two contrasting wild materials of Artemisia wellbyi identified using comparative transcriptomics

Liu

Wang

et al. 2022

BMC Plant Biol

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Background Drought is a significant condition that restricts vegetation growth on the Tibetan Plateau. Artemisia wellbyi is a unique semi-shrub-like herb in the family Compositae, which distributed in northern and northwest of Tibetan Plateau. It is a dominant species in the community that can well adapt to virous environment stress, such as drought and low temperature. Therefore, A. wellbyi . has a potential ecological value for soil and water conservation of drought areas. Understanding the molecular mechanisms of A. wellbyi . that defense drought stress can acquire the key genes for drought resistance breeding of A. wellbyi . and provide a theoretical basis for vegetation restoration of desertification area. However, they remain unclear. Thus, our study compared the transcriptomic characteristics of drought-tolerant “11” and drought-sensitive “6” material of A. wellbyi under drought stress. Results A total of 4875 upregulated and 4381 downregulated differentially expressed genes (DEGs) were induced by drought in the tolerant material; however, only 1931 upregulated and 4174 downregulated DEGs were induced by drought in the sensitive material. The photosynthesis and transcriptional regulation differed significantly with respect to the DEGs number and expression level. We found that CDPKs (calmodulin-like domain protein kinases), SOS3 (salt overly sensitive3), MAPKs (mitogen-activated protein kinase cascades), RLKs (receptor like kinase), and LRR-RLKs (repeat leucine-rich receptor kinase) were firstly involved in response to drought stress in drought tolerant A. wellbyi . Positive regulation of genes associated with the metabolism of ABA (abscisic acid), ET (ethylene), and IAA (indole acetic acid) could play a crucial role in the interaction with other transcriptional regulatory factors, such as MYBs (v-myb avian myeloblastosis viral oncogene homolog), AP2/EREBPs (APETALA2/ethylene-responsive element binding protein family), WRKYs, and bHLHs (basic helix-loop-helix family members) and receptor kinases, and regulate downstream genes for defense against drought stress. In addition, HSP70 (heat shock protein70) and MYB73 were considered as the hub genes because of their strong association with other DEGs. Conclusions Positive transcriptional regulation and negative regulation of photosynthesis could be associated with better growth performance under drought stress in the drought-tolerant material. In addition, the degradation of sucrose and starch in the tolerant A. wellbyi to alleviate osmotic stress and balance excess ROS. These results highlight the candidate genes that are involved in enhancing the performance of drought-tolerant A. wellbyi and provide a theoretical basis for improving the performance of drought-resistant ...

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De novo transcriptome analysis and development of novel EST-SSR markers in Bergenia ciliata (Haw.) Sternb. (Saxifragaceae) through Illumina sequencing

Singh

Tiwari

et al. 2022

Preprint

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Bergenia ciliata (Haw.) Sternb. is an important herb predominantly found in Indian Himalayan Region (IHR). It is widely used in medicines and healthcare system, cosmetics, food, fodder, and ornamental purposes. Illumina sequencing and de novo transcriptome assembly were carried out in B. ciliata to develop and identify simple sequence repeat markers for genetic diversity and conservation studies. The assembled data generated a total of 65,010 unigenes that showed significant similarities when compared with seven functional databases including 53,577 (Non-Redundant Protein Sequence Database: 82.41%), 44,297 (Nucleotide Sequence Database: 68.14%), 42,287 (Swiss Prot: 65.05%), 15,027 (Eukaryotic Orthologous Groups: 23.11%), 22,540 (KEGG Orthology: 34.67%), 29,477 (Gene Ontology: 45.34%) and 20,609 (Pfam: 31.7%) unigenes. In this study, a total of 18,226 SSRs and 14,497 SSR containing sequences were identified. Dinucleotides were found to be abundant (47.88%) in B. ciliata followed by mononucleotides (35.04%), and trinucleotides repeat (15.90%). AG/CT was the most common di-nucleotide repeat (40.33%). A total of 11,839 EST-SSR primers were designed, of which 96 primer pairs were synthesized randomly. Finally, 18 primer pairs were selected that revealed clear, distinct polymorphic bands when examined in eight diverse B. ciliata accessions. Furthermore, the transcriptome data and the EST-SSR markers will be an important resource for investigating genetic diversity in B. ciliata and other species of the family Saxifragaceae.

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De novo Transcriptome Assembly of Myllocerinus aurolineatus Voss in Tea Plants

Cited by 3 publications

References 27 publications

Development of EST-SSR markers in Bergenia ciliata using de novo transcriptome sequencing

Development of EST-SSR markers in Bergenia ciliata using de novo transcriptome sequencing

Key factors for differential drought tolerance in two contrasting wild materials of Artemisia wellbyi identified using comparative transcriptomics

De novo transcriptome analysis and development of novel EST-SSR markers in Bergenia ciliata (Haw.) Sternb. (Saxifragaceae) through Illumina sequencing

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