Your search keyword '"Fu MY"' showing total 4 results

1. Ultrabithorax and abdominal-A specify the abdominal appendage in a dosage-dependent manner in silkworm, Bombyx mori.

Author

Tong XL, Fu MY, Chen P, Chen L, Xiang ZH, Lu C, and Dai FY

Subjects

Animals, Bombyx genetics, Chromosome Mapping, Gene Expression Regulation, Developmental, Genetic Linkage, Bombyx embryology, Extremities, Gene Dosage, Genes, Homeobox, Insect Proteins genetics

Abstract

In insects, there is a considerable diversity in leg distribution on the body, including number, segmental arrangement, morphological identity and consequent function, but the genetic basis for these differences is not well understood. Here by positional cloning, we showed that a ~355 kb region, including Bombyx mori Ultrabithorax (BmUbx) and abdominal-A (Bmabd-A), was responsible for the silkworm mutant Kh-extra-crescents-like (E Kh -l) that displayed additional thoracic limb-like legs on the first abdominal segment (A1) and occasionally on the second abdominal segment (A2). We found that BmUbx gene was downregulated at both messenger RNA level and protein level in E Kh -l embryo, while its expression domain in the E Kh -l embryo was almost the same as that in the wild type. Whereas Bmabd-A was upregulated at both levels and was ectopically overexpressed on the supernumerary leg-bearing segments in E Kh -l. Compared with the previously reported E cs -l mutant in which increased expression of both BmUbx and Bmabd-A gave rise to ectopic proleg-like appendages on the same segments, we propose that overexpressed Bmabd-A gene is capable to promote the outgrowth of extra leg appendages on A1 and A2 segments, whereas BmUbx gene is required to specify accurate morphologies of the ectopic legs in a dosage-dependent manner in silkworm. These results provide insights into how these hox genes regulate the leg morphologic diversity on the same segments.

Published

2017

2. Molecular mapping and characterization of the silkworm apodal mutant.

Author

Chen P, Tong XL, Fu MY, Hu H, Song JB, He SZ, Gai TT, Dai FY, and Lu C

Subjects

Animals, Chromosome Mapping, Female, Gene Expression, Gene Expression Regulation, Developmental, Genetic Association Studies, Genetic Linkage, Infertility, Female, Insect Proteins genetics, Insect Proteins metabolism, Male, Mutation, Promoter Regions, Genetic, Bombyx genetics, Genes, Insect

Abstract

The morphological diversity of insects is important for their survival; in essence, it results from the differential expression of genes during development of the insect body. The silkworm apodal (ap) mutant has degraded thoracic legs making crawling and eating difficult and the female is sterile, which is an ideal subject for studying the molecular mechanisms of morphogenesis. Here, we confirmed that the infertility of ap female moths is a result of the degradation of the bursa copulatrix. Positional cloning of ap locus and expression analyses reveal that the Bombyx mori sister of odd and bowl (Bmsob) gene is a strong candidate for the ap mutant. The expression of Bmsob is down-regulated, while the corresponding Hox genes are up-regulated in the ap mutant compared to the wild type. Analyses with the dual luciferase assay present a declined activity of the Bmsob promoter in the ap mutant. Furthermore, we demonstrate that Bmsob can inhibit Hox gene expression directly and by suppressing the expression of other genes, including the BmDsp gene. The results of this study are an important contribution to our understanding of the diversification of insect body plan.

Published

2016

3. Fine mapping of a supernumerary proleg mutant (E(Cs) -l) and comparative expression analysis of the abdominal-A gene in silkworm, Bombyx mori.

Author

Chen P, Tong XL, Li DD, Liang PF, Fu MY, Li CF, Hu H, Xiang ZH, Lu C, and Dai FY

Subjects

Alleles, Animals, Bombyx anatomy & histology, Bombyx growth & development, Chromosome Mapping, Extremities anatomy & histology, Extremities growth & development, Female, Male, Movement physiology, Phenotype, Bombyx genetics, Genes, Insect, Mutation

Abstract

Patterning and phenotypic variations of appendages in insects provide important clues on developmental genetics. In the silkworm Bombyx mori, morphological variations associated with the E complex, an analogue of the Drosophila melanogaster bithorax complex, mainly determine the shape and number of prolegs on abdominal segments. Here, we report the identification and characterization of the allele responsible for the supernumerary crescents and legs-like (E(Cs) -l) mutant, a model derived from spontaneous mutation of the E complex, with supernumerary legs and extra crescents. Fine mapping with 1605 individuals revealed a ∼68 kb sequence in the upstream intergenic region of B. mori abdominal-A (Bmabd-A) clustered with the E(Cs) -l locus. Quantitative real-time PCR (qRT-PCR) and Western blotting analyses disclosed a marked increase in Bmabd-A expression in the E(Cs) -l mutant at both the transcriptional and translational levels, compared to wild-type Dazao. Furthermore, we observed ectopic expression of the Bmabd-A protein in the second abdominal segment (A2) of the E(Cs) -l mutant. Our results collectively suggest that the 68 kb region contains important regulatory elements of the Bmabd-A gene, and provide evidence that the gene is required for limb development in abdominal segments in the silkworm., (© 2013 Royal Entomological Society.)

Published

2013

4. Antennapedia is involved in the development of thoracic legs and segmentation in the silkworm, Bombyx mori.

Author

Chen P, Tong XL, Li DD, Fu MY, He SZ, Hu H, Xiang ZH, Lu C, and Dai FY

Subjects

Animal Structures metabolism, Animals, Antennapedia Homeodomain Protein genetics, Body Patterning, Bombyx genetics, DNA Transposable Elements, Insect Proteins genetics, Animal Structures growth & development, Antennapedia Homeodomain Protein metabolism, Bombyx growth & development, Bombyx metabolism, Gene Expression Regulation, Developmental, Insect Proteins metabolism

Abstract

Homeotic genes, which are associated closely with body patterning of various species, specify segment identity. The Wedge eye-spot (Wes) is a new homeotic mutant located on the sixth linkage group. Homozygous Wes/Wes embryos are lethal and display a pair of antenna-like appendages under the mouthparts as well as fused thoracic segments. These mutants also exhibit a narrower eye-spot at the larval stage compared with the wild type. By positional cloning, we identified the candidate gene of the Wes locus, Bombyx mori Antennapedia (BmAntp). Two BmAntp transcripts were identified in the homozygote of the Wes mutant, including a normal form and an abnormal form with a 1570-bp insertion. Our data showed that the insertion element was a long interspersed nuclear element (LINE)-like transposon that destroyed the original open reading frame of BmAntp. Quantitative RT-PCR analysis showed that the expression levels of normal BmAntp transcripts were increased markedly in the Wes heterozygous larvae compared with the wild type. Furthermore, we performed RNAi of BmAntp and observed fused thoracic segments and defective thoracic legs in the developing embryos. Our results indicated that BmAntp is responsible for the Wes mutant and has an important role in determining the proper development of the thoracic segments. Our identification of a homeotic mutation in the silkworm is an important contribution to our understanding of the regulation of Hox genes at different levels of expression.

Published

2013