AI Article Synopsis
- Helfer, a wild silkworm species, produces golden silk like the muga silkworm but is seen as a pest due to competition for food.
- The study decodes Helfer's mitochondrial genome using next-generation sequencing, finding similarities in gene content with other moths.
- Key findings include patterns of purifying selection in protein-coding genes, specific mismatches in RNA, and unique motifs in the control region, highlighting its evolutionary significance within the Saturniidae family.
Article Abstract
Helfer (commonly known as Amphutukoni muga/Cricula silkworm), a wild sericigenous insect produces golden yellow silk similar to (muga silkworm), with significant potential as a natural fiber and biomaterial. is considered as a pest as it competes for food with muga, which produces the prized golden silk. This study focuses on decoding the mitochondrial genome of using next-generation sequencing technology and includes comparative analysis with Bombycoids and other lepidopteran insects. We found that the mitogenome spans 15 425 bp and exhibits typical gene content and arrangement consistent with other Saturniids and lepidopterans. All protein-coding genes were found to undergo purifying selection, with the highest and lowest conservation observed in the and gene, respectively, indicating their potential role in future evolutionary events. We identified two types of mismatches: 23 "G-U" and 6 "U-U" pairs, similar to those found in among the Saturniids. Additionally, our study uncovered the presence of two 33 bp repeat units and a "TTAGA" motif in the control region, in contrast to the typical "ATAGA" motif, suggesting functional similarity with evolving sequences. Furthermore, phylogenetic analysis supports the close relationship of with other species within the Saturniidae family.
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| http://dx.doi.org/10.1139/gen-2023-0037 | DOI Listing |
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