Abstract
BackgroundSqualene synthase (SQS) is a rate-limiting enzyme necessary to produce pentacyclic triterpenes in plants. It is an important enzyme producing squalene molecules required to run steroidal and triterpenoid biosynthesis pathways working in competitive inhibition mode. Reports are available on information pertaining to SQS gene in several plants, but detailed information on SQS gene in Gymnema sylvestre R. Br. is not available. G. sylvestre is a priceless rare vine of central eco-region known for its medicinally important triterpenoids. Our work aims to characterize the GS-SQS gene in this high-value medicinal plant.ResultsCoding DNA sequences (CDS) with 1245 bp length representing GS-SQS gene predicted from transcriptome data in G. sylvestre was used for further characterization. The SWISS protein structure modeled for the GS-SQS amino acid sequence data had MolProbity Score of 1.44 and the Clash Score 3.86. The quality estimates and statistical score of Ramachandran plots analysis indicated that the homology model was reliable. For full-length amplification of the gene, primers designed from flanking regions of CDS encoding GS-SQS were used to get amplification against genomic DNA as template which resulted in approximately 6.2-kb sized single-band product. The sequencing of this product through NGS was carried out generating 2.32 Gb data and 3347 number of scaffolds with N50 value of 457 bp. These scaffolds were compared to identify similarity with other SQS genes as well as the GS-SQSs of the transcriptome. Scaffold_3347 representing the GS-SQS gene harbored two introns of 101 and 164 bp size. Both these intronic regions were validated by primers designed from adjoining outside regions of the introns on the scaffold representing GS-SQS gene. The amplification took place when the template was genomic DNA and failed when the template was cDNA confirmed the presence of two introns in GS-SQS gene in Gymnema sylvestre R. Br.ConclusionThis study shows GS-SQS gene was very closely related to Coffea arabica and Gardenia jasminoides and this gene harbored two introns of 101 and 164 bp size.
Highlights
Squalene synthase (SQS) is a rate-limiting enzyme necessary to produce pentacyclic triterpenes in plants
3.1 Protein model Total three Coding Deoxyribonucleic acid (DNA) sequences (CDS) representing GS-SQS predicted from this transcriptome analysis of leaf (L2), flower (F1), and fruit (F2) were deposited to the NCBI GeneBank with the CDS names as GS-SQSCDS_10191-L2, GS-SQSCDS_64527-F1(flower sample), and GS-SQSC DS_35012-F2 with GeneBank accessions numbers as MT812194, MT812195, and MT812196, respectively
CDS encoding GS-SQS gene with 1245 bp length was predicted from transcriptome data and was analyzed for reliability for quality scores through modeling SWISS protein structure
Summary
Squalene synthase (SQS) is a rate-limiting enzyme necessary to produce pentacyclic triterpenes in plants. It is an important enzyme producing squalene molecules required to run steroidal and triterpenoid biosynthesis pathways working in competitive inhibition mode. Reports are available on information pertaining to SQS gene in several plants, but detailed information on SQS gene in Gymnema sylvestre R. Br., traditionally known as madhunashini, is one of the important medicinal plants of India. The phytochemicals present in the leaf causes loss of taste of sweetness. Because of this reason, it is called madhunashini meaning “killer of sugar.”. It is called madhunashini meaning “killer of sugar.” It grows in the tropical
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