Project description:Food digestion is vital for the survival and prosperity of insects. Research on insect digestive enzymes yields knowledge of their structure and function, and potential targets of antifeedants to control agricultural pests. While such enzymes from pest species are more relevant for inhibitor screening, a systematic analysis of their counterparts in a model insect has broader impacts. In this context, we identified a set of 122 digestive enzyme genes from the genome of Manduca sexta, a lepidopteran model related to some major agricultural pests. These genes encode hydrolases of proteins (85), lipids (20), carbohydrates (16), and nucleic acids (1). Gut serine proteases (62) and their noncatalytic homologs (11) in the S1A subfamily are encoded by abundant transcripts whose levels correlate well with larval feeding stages. Aminopeptidases (10), carboxypeptidases (10), and other proteases (3) also participate in dietary protein digestion. A large group of 11 lipases as well as 9 esterases are probably responsible for digesting lipids in diets. The repertoire of carbohydrate hydrolases (16) is relatively small, including two amylases, three maltases, two sucrases, two α-glucosidases, and others. Lysozymes, peptidoglycan amidases, and β-1,3-glucanase may hydrolyze peptidoglycans and glucans to harvest energy and defend the host from microbes on plant leaves. One alkaline nuclease is associated with larval feeding, which is likely responsible for hydrolyzing denatured DNA and RNA undergoing autolysis at a high pH of midgut. Proteomic analysis of the ectoperitrophic fluid from feeding larvae validated at least 131 or 89% of the digestive enzymes and their homologs. In summary, this study provides for the first time a holistic view of the digestion-related proteins in a lepidopteran model insect and clues for comparative research in lepidopteran pests and beyond.

Project description:The insect cuticle is a unique material that covers the exterior of the animal as well as lining the foregut, hindgut, and tracheae. It offers protection from predators and desiccation, defines body shape, and serves as an attachment site for internal organs and muscle. It has demonstrated remarkable variations in hardness, flexibility and elasticity, all the while being light weight, which allows for ease of movement and flight. It is composed primarily of chitin, proteins, catecholamines, and lipids. Proteomic analyses of cuticle from different life stages and species of insects has allowed for a more detailed examination of the protein content and how it relates to cuticle mechanical properties. It is now recognized that several groups of cuticular proteins exist and that they can be classified according to conserved amino acid sequence motifs. We have annotated the genome of the tobacco hornworm, Manduca sexta, for genes that encode putative cuticular proteins that belong to seven different groups: proteins with a Rebers and Riddiford motif (CPR), proteins analogous to peritrophins (CPAP), proteins with a tweedle motif (CPT), proteins with a 44 amino acid motif (CPF), proteins that are CPF-like (CPFL), proteins with an 18 amino acid motif (18 aa), and proteins with two to three copies of a C-X5-C motif (CPCFC). In total we annotated 248 genes, of which 207 belong to the CPR family, the most for any insect genome annotated to date. Additionally, we discovered new members of the CPAP family and determined that orthologous genes are present in other insects. We established orthology between the M. sexta and Bombyx mori genes and identified duplication events that occurred after separation of the two species. Finally, we utilized 52 RNAseq libraries to ascertain gene expression profiles that revealed commonalities and differences between different tissues and developmental stages.

Project description:Manduca sexta RNAseq

Project description:Small RNA and mRNA profiling during intersegmental muscle development and programmed cell death in Manduca sexta

Project description:Manduca sexta differential gene expression, male & female antenna, larval midgut

Project description:Manduca sexta overview

Project description:Pyrosequencing-based expression profiling and identification of differentially regulated genes from Manduca sexta, a lepidopteran model insect with unknown genome sequence

Project description:Studying transcriptomes involved in Manduca sexta muscle development

Project description:Interactive Effects of Previous and Current Thermal Conditions on Gene Expression in Manduca sexta

Project description:Pyrosequence analysis of expressed sequence tags for Manduca sexta hemolymph proteins involved in immune responses