Abstract
The international Gene Ontology (GO) and pathway databases were used to functionally analyze the clawed frogs' Basic Helix-Loop-Helix (bHLH) transcription factors of Xenopus tropicalis and Xenopus laevis in a updated genome-wide survey. There were 41 GO terms and one pathway significantly enriched for Xenopus tropicalis, whereas there were 45 GO terms and 3 pathways significantly enriched for Xenopus laevis. Among those significantly enriched GO terms, the two clawed frogs share 31 common functional GO annotations of these bHLH genes, including DNA-dependent transcription and (negative) transcription regulation, DNA binding and bHLH binding, transcription factor complex and protein heterodimerization activity, (negative) regulation of RNA metabolic processes, nuclear translocator and repressor, myogenic basic muscle-specific protein, neurogenic differentiation factor and NeuroD. Furthermore, these frogs' bHLH genes were also found to play important roles in the regulation of gene expression in some important developmental or physiological processes, such as (skeletal) muscle cell differentiation, muscle organ development, biological rhythms and rhythmic process, hypoxia (adaption) and hypoxia-inducible factors, neurogenesis, neural tube development and neurogenic differentiation, whereas they were commonly significantly enriched in TGF-beta signaling pathway. These resulted data and information are very important for us to understand the functions, classification and evolution of frog bHLH genes.
Highlights
The Basic Helix-Loop-Helix proteins are currently recognized as the most important class of transcription factors
We carefully searched and totally identified Basic Helix-Loop-Helix (bHLH) protein sequences of Xenopus tropicalis and bHLH protein sequences of Xenopus laevis. Among these putative bHLH proteins retrieved, 15 sequences were updated in the genome of Xenopus tropicalis, including the protein sequences of Xsash3 (XP_002940370.1 updated to XP_004913964.1), Oligo2 (XP_002938491.1 updated to XP_004912201.1), Hes5e (NP_001107462.1 updated to XP_004916212.1) and Tal2 (XP_002934026.1 updated to XP_017948432.1 and XP_004918959.1), whereas 6 sequences were updated in the genome of Xenopus laevis, including the protein sequences of ARNT2 and Baml1 (i.e., ARNT2b and ARNT2c, Baml1b and Baml1c; NP_001080540.1 updated to XP_018106068.1 and NP_001089031.1 updated to XP_018110819.1)
We totally retrieved and identified bHLH protein sequences of Xenopus tropicalis and bHLH protein sequences of Xenopus laevis. Among these putative bHLH proteins retrieved, 15 sequences were updated in the genome of Xenopus tropicalis and 6 sequences were updated in the genome of Xenopus laevis
Summary
The Basic Helix-Loop-Helix (bHLH) proteins are currently recognized as the most important class of transcription factors They can form specific interactions with the genetic cis-elements of eukaryotes, thereby activating or inhibiting the transcription and translation of the gene and they may bind to the DNA binding proteins with activation or inhibition activities (Murre et al, 1989; Murre, 2019).
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