Different transcription of novel, functional long non-coding RNA genes by UV-B in green algae, Volvox carteri

Dadras N, Hasanpur K, Razeghi J, Kianianmomeni A (2023)
International Microbiology.

Zeitschriftenaufsatz | E-Veröff. vor dem Druck | Englisch
 
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Autor*in
Dadras, Negin; Hasanpur, Karim; Razeghi, Jafar; Kianianmomeni, ArashUniBi
Abstract / Bemerkung
Long non-coding RNAs (lncRNAs) are identified as important regulatory molecules related to diverse biological processes. In recent years, benefiting from the rapid development of high-throughput sequencing technology, RNA-seq, and analysis methods, more lncRNAs have been identified and discovered in various plant and algal species. However, so far, only limited studies related to algal lncRNAs are available. Volvox carteri f. nagariensis is the best multicellular model organism to study in developmental and evolutionary biology; therefore, studying and increasing information about this species is important. This study identified lncRNAs in the multicellular green algae Volvox carteri and 1457 lncRNAs were reported, using RNA-seq data and with the help of bioinformatics tools and software. This study investigated the effect of low-dose UV-B radiation on changes in the expression profile of lncRNAs in gonidial and somatic cells. The differential expression of lncRNAs was analyzed between the treatment (UV-B) and the control (WL) groups in gonidial and somatic cells. A total of 37 and 26 lncRNAs with significant differential expression in gonidial and somatic cells, respectively, were reported. Co-expression analysis between the lncRNAs and their neighbor protein-coding genes (in the interval of +/- 10 Kb) was accomplished. In gonidial cells, 184 genes with a positive correlation and 13 genes with a negative correlation (greater than 0.95), and in somatic cells, 174 genes with a positive correlation, and 18 genes with a negative correlation were detected. Functional analysis of neighboring coding genes was also performed based on gene ontology. The results of the current work may help gain deeper insight into the regulation of gene expression in the studied model organism, Volvox carteri.
Stichworte
LncRNA; RNA-seq; UV-B treatment; Volvox carteri
Erscheinungsjahr
2023
Zeitschriftentitel
International Microbiology
ISSN
1139-6709
eISSN
1618-1905
Page URI
https://pub.uni-bielefeld.de/record/2980013

Zitieren

Dadras N, Hasanpur K, Razeghi J, Kianianmomeni A. Different transcription of novel, functional long non-coding RNA genes by UV-B in green algae, Volvox carteri. International Microbiology. 2023.
Dadras, N., Hasanpur, K., Razeghi, J., & Kianianmomeni, A. (2023). Different transcription of novel, functional long non-coding RNA genes by UV-B in green algae, Volvox carteri. International Microbiology. https://doi.org/10.1007/s10123-023-00378-6
Dadras, Negin, Hasanpur, Karim, Razeghi, Jafar, and Kianianmomeni, Arash. 2023. “Different transcription of novel, functional long non-coding RNA genes by UV-B in green algae, Volvox carteri”. International Microbiology.
Dadras, N., Hasanpur, K., Razeghi, J., and Kianianmomeni, A. (2023). Different transcription of novel, functional long non-coding RNA genes by UV-B in green algae, Volvox carteri. International Microbiology.
Dadras, N., et al., 2023. Different transcription of novel, functional long non-coding RNA genes by UV-B in green algae, Volvox carteri. International Microbiology.
N. Dadras, et al., “Different transcription of novel, functional long non-coding RNA genes by UV-B in green algae, Volvox carteri”, International Microbiology, 2023.
Dadras, N., Hasanpur, K., Razeghi, J., Kianianmomeni, A.: Different transcription of novel, functional long non-coding RNA genes by UV-B in green algae, Volvox carteri. International Microbiology. (2023).
Dadras, Negin, Hasanpur, Karim, Razeghi, Jafar, and Kianianmomeni, Arash. “Different transcription of novel, functional long non-coding RNA genes by UV-B in green algae, Volvox carteri”. International Microbiology (2023).

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