Developmental expression patterns of cuticular protein genes with the R&amp;R Consensus from Anopheles gambiae

Togawa, Toru; Dunn, William A.; Emmons, Aaron C.; Nagao, John; Willis, Judith H.

doi:10.1016/j.ibmb.2007.12.008

Cited by 104 publications

(105 citation statements)

References 43 publications

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“…Even within the same insect, they are selectively switched on or off at different developmental stages as well as in cuticles with different physical properties. Therefore, the chitin-binding cuticular proteins involved in modeling and maintaining body shape differ in identity and function according to the insect and developmental stage (Soares et al 2007;Okamoto et al 2008;Togawa et al 2008;Charles 2010), and our results show that mutation of the BmorCPR2 gene alters the overall morphology of larvae, validating its role in body-shape determination in silkworm. These findings suggest that the number, expression patterns, and functional diversification of chitin-binding cuticular proteins represent key factors in understanding the diversity of insect body shape and provide a reference to analyze the molecular basis for other body-shape mutants in silkworm.…”

Section: Resultssupporting

confidence: 61%

“…We analyzed the upstream and downstream sequences of S0 in the silkworm database. Close to the S0 marker, we observed two predicted gene models encoding RR1-type chitin-binding cuticular proteins that play an important role in construction of the soft insect cuticle (Andersen et al 1995(Andersen et al , 2011Togawa et al 2008;Moussian 2010;Willis 2010) (Figure 2A-iii). Full-length cDNA of BGIBMGA005278 (BmorCPR3) was not different in wild type and stony, and the gene expression patterns were relatively similar (Figure 2A-v, and Figure S2).…”

Section: The Stony Locus Encodes Bmorcpr2mentioning

confidence: 99%

“…5). Chitin-binding cuticular proteins are widely distributed at different development stages and play roles in the physical properties of the cuticle ( Rebers and Riddiford 1988;Guan et al 2006;Soares et al 2007;Okamoto et al 2008;Togawa et al 2008;Charles 2010;Gilbert 2011, Chap. 5;Arakane et al 2012;Jasrapuria et al 2012).…”

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Mutation of a Cuticular Protein,BmorCPR2, Alters Larval Body Shape and Adaptability in Silkworm,Bombyx mori

et al. 2014

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Cuticular proteins (CPs) are crucial components of the insect cuticle. Although numerous genes encoding cuticular proteins have been identified in known insect genomes to date, their functions in maintaining insect body shape and adaptability remain largely unknown. In the current study, positional cloning led to the identification of a gene encoding an RR1-type cuticular protein, BmorCPR2, highly expressed in larval chitin-rich tissues and at the mulberry leaf-eating stages, which is responsible for the silkworm stony mutant. In the Dazao-stony strain, the BmorCPR2 allele is a deletion mutation with significantly lower expression, compared to the wild-type Dazao strain. Dysfunctional BmorCPR2 in the stony mutant lost chitin binding ability, leading to reduced chitin content in larval cuticle, limitation of cuticle extension, abatement of cuticle tensile properties, and aberrant ratio between internodes and intersegmental folds. These variations induce a significant decrease in cuticle capacity to hold the growing internal organs in the larval development process, resulting in whole-body stiffness, tightness, and hardness, bulging intersegmental folds, and serious defects in larval adaptability. To our knowledge, this is the first study to report the corresponding phenotype of stony in insects caused by mutation of RR1-type cuticular protein. Our findings collectively shed light on the specific role of cuticular proteins in maintaining normal larval body shape and will aid in the development of pest control strategies for the management of Lepidoptera.T HE cuticle covering the entire body surface of insects not only participates in defense against pathogens and adverse environmental factors, but is also indispensable for constructing and maintaining external morphological characteristics and locomotion during the entire developmental process (Wigglesworth 1957;Delon and Payre 2004;Moussian et al. 2005). Therefore, the cuticle greatly enhances survival ability and adaptability of insects, ensuring its continued existence as one of the most successful life forms in the animal kingdom.The cuticle is a complex composite material mainly comprising chitin fibers and proteins (Andersen et al. 1995;Moussian 2010). Chitin is the polymer of b-1,4-linked N-acetyl-D-glucosamine (Gilbert 2011, Chap. 7). In procuticles, chitin fibers are arranged in laminae in an antiparallel manner and superimpose each other, forming sheets of fibrils that are stacked in a helicoidal fashion, maintaining cuticle structure, elasticity, and stability (Bouligand 1965;Neville and Luke 1969;Moussian 2010). In terrestrial insects, the chitin content is positively correlated with body size, suggesting a close relationship with cuticle extension and expansion (Merzendorfer and Zimoch 2003;Lease and Wolf 2010).Cuticular proteins (CPs), the principal structural constituents of cuticle, are encoded by more than 100 genes in known insect genomes (Andersen et al. 1995 The soft, flexible cuticle of Lepidoptera larvae not only bears pressure from ...

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Section: Resultssupporting

confidence: 61%

Section: The Stony Locus Encodes Bmorcpr2mentioning

confidence: 99%

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Mutation of a Cuticular Protein,BmorCPR2, Alters Larval Body Shape and Adaptability in Silkworm,Bombyx mori

et al. 2014

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“…Transcriptional regulation of CP gene expression appears to be regulated by developmental and hormonal cues (Ali et al, 2013;Charles, 2010). Togawa et al (2008) analyzed the temporal expression patterns of 152 CPR genes in A. gambiae by using real-time PCR. These were grouped into 21 clusters based on expression profiles.…”

Section: Introductionmentioning

confidence: 99%

Two major cuticular proteins are required for assembly of horizontal laminae and vertical pore canals in rigid cuticle of Tribolium castaneum

Noh

Kramer

Muthukrishnan

et al. 2014

Insect Biochemistry and Molecular Biology

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“…Togawa analyzed expression patterns from precisely timed, relative to ecdysis, first-instar larvae to newly eclosed adults, 19 stages in all. This analysis revealed that the genes in sequence clusters shared temporal patterns of expression and that their expression levels were high (41). We suspect that the amplification of these genes reflects the need for massive protein synthesis to accompany the very rapid development of An.…”

Section: Wwwannualreviewsorg • Arthropod Proteomics and Genomicsmentioning

confidence: 92%

The Evolution and Metamorphosis of Arthropod Proteomics and Genomics

Willis

2018

Annu. Rev. Entomol.

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This article presents an overview of the development of techniques for analyzing cuticular proteins (CPs), their transcripts, and their genes over the past 50 years based primarily on experience in the laboratory of J.H. Willis. It emphasizes changes in the kind of data that can be gathered and how such data provided insights into the molecular underpinnings of insect metamorphosis and cuticle structure. It describes the techniques that allowed visualization of the location of CPs at both the anatomical and intracuticular levels and measurement of the appearance and deployment of transcripts from CP genes as well as what was learned from genomic and transcriptomic data. Most of the early work was done with the cecropia silkmoth, Hyalophora cecropia, and later work was with Anopheles gambiae.

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Developmental expression patterns of cuticular protein genes with the R&R Consensus from Anopheles gambiae

Cited by 104 publications

References 43 publications

Mutation of a Cuticular Protein,BmorCPR2, Alters Larval Body Shape and Adaptability in Silkworm,Bombyx mori

Mutation of a Cuticular Protein,BmorCPR2, Alters Larval Body Shape and Adaptability in Silkworm,Bombyx mori

Two major cuticular proteins are required for assembly of horizontal laminae and vertical pore canals in rigid cuticle of Tribolium castaneum

The Evolution and Metamorphosis of Arthropod Proteomics and Genomics

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