Genome-Wide Identification and Expression Profiling of Wnt Family Genes in the Silkworm, Bombyx mori

Ding, Xin; Liu, Junxia; Zheng, Lu; Song, Jun‐Ho; Li, Niannian; Hu, Hai; Tong, Xiaoling; Dai, Fangyin

doi:10.3390/ijms20051221

Cited by 19 publications

(29 citation statements)

References 66 publications

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“…Despite missing sequences for eight of our focal species, it seems very likely that eight Wnt genes is the ancestral ditrysian Wnt repertoire. These results are consistent with the previously published Wnt repertoire for B. mori (Ding et al, 2019). This could indicate that eight Wnt genes were also present in the common ancestor of all lepidopterans including non-ditrysian species, but further analysis of additional species is needed to verify this.…”

Section: The Wnt Gene Repertoire In Lepidopteranssupporting

confidence: 91%

“…While Wnt5 is expressed at several embryonic stages in the nervous system in D. melanogaster (Fradkin et al, 1995(Fradkin et al, , 2004 and in e.g., limb buds, head lobes, and segmental stripes T. castaneum (Bolognesi et al, 2008a) we did not detect any expression for this Wnt gene in B. anynana. In a recent study of B. mori, Wnt5 transcripts were also only observed in very late embryonic stages (6 days AEL) as well as in larval tissues such as head, ovaries and the wing discs (Ding et al, 2019). Therefore, we propose, that Wnt5, contrary to Drosophila and Tribolium, is not expressed in the embryonic stages of Bicyclus included in this study.…”

Section: Wnt5mentioning

confidence: 54%

“…Previously, seven Wnt subfamilies were described in the butterfly Heliconius melpomene (Martin et al, 2012) and their expression was analyzed in larval wing discs (Martin and Reed, 2014). More recently, a study found representatives of eight subfamilies in several ditrysian butterfly and moth species (Ding et al, 2019). All used species in this study are part of the polyphyletic taxonomic suborder of the Ditrysia.…”

Section: Introductionmentioning

confidence: 87%

“…All used species in this study are part of the polyphyletic taxonomic suborder of the Ditrysia. However, embryonic Wnt gene expression has only been studied in the moths Bombyx mori (Ding et al, 2019) and Manduca sexta (Dow et al, 1988;Broadie et al, 1991;Miya, 2003).…”

Section: Introductionmentioning

confidence: 99%

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Wnt Gene Expression During Early Embryogenesis in the Nymphalid Butterfly Bicyclus anynana

et al. 2019

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Wnt signaling pathways are involved in many important cellular processes including proliferation and differentiation. Wnt ligands are released by source cells and signal to target cells by binding to the Frizzled receptor family and triggering changes in downstream target gene expression. Wnt signaling appeared at the base of metazoans and there was an early expansion in the repertoire of Wnt ligands to the 13 known subfamilies. However, little is known about functionality of these ligands in many animal lineages. Understanding the roles of these important signaling molecules in a wider range of animals is crucial to understand the regulation and evolution of cell fate during development and how this can lead to diversification. Here, we analyzed the Wnt repertoire among lepidopterans, where the embryological functionality of these ligands is understudied compared to other insect orders. To be able to explore Wnt gene roles during butterfly embryogenesis we first established a staging system for the butterfly model, Bicyclus anynana, and assayed the expression pattern of all eight lepidopteran Wnt genes during early butterfly development. We detected expression of Wnt1, Wnt10, and WntA in several expression domains, such as segmental stripes as well as expression of Wnt7 in the nervous system and Wnt11 in several head structures. Overall, our study provides, a basis for future research into butterfly embryogenesis and much needed new insights into the potential roles of Wnt genes in specifying cell fate in these animals as well as how this compares to other animals.

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Section: The Wnt Gene Repertoire In Lepidopteranssupporting

confidence: 91%

Section: Wnt5mentioning

confidence: 54%

Section: Introductionmentioning

confidence: 87%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Wnt Gene Expression During Early Embryogenesis in the Nymphalid Butterfly Bicyclus anynana

et al. 2019

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“…Supplementary Table 1 for accession numbers, Supplementary Data File 1 for amino acid sequence alignments. (Janssen et al 2010); the insects D. melanogaster, T. castaneum (Bolognesi et al 2008) and B. anynana (Ding et al 2019;Holzem et al 2019); the crustacean Da. pulex (Janssen et al 2010); the myriapod S. maritima (Chipman et al 2014); and the onychophoran Eu.…”

Section: Conclusion: Arachnopulmonate Genome Evolution In the Wake Omentioning

confidence: 99%

Widespread retention of ohnologs in key developmental gene families following whole genome duplication in arachnopulmonates

Harper

Gonzalez

Schönauer

et al. 2020

Preprint

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Whole genome duplications (WGD) have occurred multiple times in the evolution of animals, including in the lineages leading to vertebrates, teleosts, horseshoe crabs and arachnopulmonates. These dramatic genomic events initially produce a wealth of new genetic material, which is generally followed by extensive gene loss. It appears that developmental genes such as homeobox genes, signalling pathway components and microRNAs, however, tend to be more frequently retained in duplicate following WGD (ohnologs). These not only provide the best evidence for the occurrence of WGD, but an opportunity to study its evolutionary implications. Although these genes are relatively well studied in the context of vertebrate WGD, genomic and transcriptomic data for independent comparison in other groups are scarce, with patchy sampling of only two of the five extant arachnopulmonate orders. To improve our knowledge of developmental gene repertoires, and their evolution since the arachnopulmonate WGD, we sequenced embryonic transcriptomes from two additional spider species and two whip spider species and surveyed them for three important gene families: Hox, Wnt and frizzled. We report extensive retention of ohnologs in all four species, further supporting the arachnopulmonate WGD. Thanks to improved sampling we were able to identify patterns of likely ohnolog retention and loss within spiders, including apparent differences between major clades. The two amblypygid species have larger ohnolog repertoires of these genes than both spiders and scorpions; including the first reported duplicated Wnt1/wg, the first Wnt10 recovered in an arachnid, and broad retention of frizzled genes. These insights shed light on the evolution of the enigmatic whip spiders, highlight the importance of the comparative approach within lineages, and provide substantial new transcriptomic data for future study.

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The Wnt gene family in Tenebrio molitor and other coleopterans

Yang

et al. 2022

Arch Insect Biochem Physiol

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The Wnt gene family is involved in a wide range of developmental processes. Despite its significance, the evolution and function of Wnt genes remain largely unclear. Here, an exhaustive survey of Wnt genes was conducted in Tenebrio molitor and 17 other beetle genomes. A total of 146 Wnt genes were identified, creating a comprehensive coleopteran Wnt gene catalog. Comparative genomics indicates that dynamic evolutionary patterns of Wnt gene loss and duplication occurred in Coleoptera, leading to the diverse Wnt gene repertoire in various beetles. A striking loss of particular Wnt gene subfamilies occurs in Coleoptera. Remarkably, Wnt gene duplication was discovered for the first time in insects. Further analysis of Wnt gene expression in T. molitor indicates that each Wnt gene, including the duplicated ones, has a unique spatial or temporal expression pattern. The current study provides valuable insight into the evolution and functional validation of Wnt genes in Coleoptera.

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Genome-Wide Identification and Expression Profiling of Wnt Family Genes in the Silkworm, Bombyx mori

Cited by 19 publications

References 66 publications

Wnt Gene Expression During Early Embryogenesis in the Nymphalid Butterfly Bicyclus anynana

Wnt Gene Expression During Early Embryogenesis in the Nymphalid Butterfly Bicyclus anynana

Widespread retention of ohnologs in key developmental gene families following whole genome duplication in arachnopulmonates

The Wnt gene family in Tenebrio molitor and other coleopterans

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