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Seulgi Mun,Mi Young Noh,Yasuyuki Arakane 한국응용곤충학회 2016 한국응용곤충학회 학술대회논문집 Vol.2016 No.04
Chitin deacetylases (CDAs) are chitin-modifying enzymes that deacetylate chitin to form chitosan. In insects, this modification may contribute to the affinity and/or cross-linking of chitin/chitosan-like polysaccharides for a variety of structural proteins that may lead to diverse mechanical properties of the cuticle. DmCDA1 (serpentine) and DmCDA2 (vermiform) from Drosophila melanogaster play roles in development and morphology of embryonic tracheal tubes. We previously reported the functional importance of TcCDA1 and TcCDA2 orthologs to DmCDA1 and DmCDA2 from Tribolium castaneum, in molting, morphology of cuticle, and movement of legs. In this study, we further analyze ultrastructural defects of the cuticles and leg joints in TcCDA1- and TcCDA2-deficient insects. Loss of function of TcCDA1 and TcCDA2 causes disorganized chitinous horizontal laminae and vertical pore canals of rigid adult cuticle (e.g. elytron). Both proteins are also required for laminal organization in soft cuticle (e.g. hindwing). Morphological analysis of TcCDA1- and TcCDA2A-deficient adult revealed that ruptured tendons between femur and tibia cause the defects in movement of the leg joint. This work was supported by NRF (NRF-2015R1A2A2A01006614).
Gene functions in adult cuticle pigmentation of the yellow mealworm, <i>Tenebrio molitor</i>
Mun, Seulgi,Noh, Mi Young,Kramer, Karl J.,Muthukrishnan, Subbaratnam,Arakane, Yasuyuki Elsevier 2020 Insect biochemistry and molecular biology Vol.117 No.-
<P><B>Abstract</B></P> <P>In many arthropod species including insects, the cuticle tanning pathway for both pigmentation and sclerotization begins with tyrosine and is responsible for production of both melanin- and quinoid-type pigments, some of which are major pigments for body coloration. In this study we identified and cloned cDNAs of the yellow mealworm, <I>Tenebrio molitor</I>, encoding seven key enzymes involved in this pathway including tyrosine hydroxylase (TmTH), DOPA decarboxylase (TmDDC), laccase 2 (TmLac2), Yellow-y (TmY-y), arylalkylamine <I>N</I>-acetyltransferase (TmAANAT1), aspartate 1-decarboxylase (TmADC) and <I>N</I>-β-alanyldopamine synthase (Tmebony). Expression profiles of these genes during development were analyzed by real-time PCR, revealing development-specific patterns of expression. Loss of function mediated by RNAi of either 1) TmTH or TmLac2, 2) TmDDC or TmY-y, and 3) TmAANAT1, TmADC or Tmebony resulted in pale/white, light yellow/brown and dark/black adult body coloration, respectively. In addition, there are three distinct layer/regional pigmentation differences in rigid types of adult cuticle, a brownish outer exocuticle (EX), a dark pigmented middle mesocuticle (ME) and a transparent inner endocuticle (EN). Decreases in pigmentation of the EX and/or ME layers were observed after RNAi of <I>TmDDC</I> or <I>TmY-y</I>. In TmADC- or Tmebony-deficient adults, a darker pigmented EX layer was observed. In TmAANAT1-deficient adults, trabeculae formed between the dorsal and ventral elytral cuticles as well as the transparent EN layer became highly pigmented. These results demonstrate that knocking down the level of gene expression of specific enzymes of this tyrosine metabolic pathway leads to abnormal pigmentation in individual layers and substructure of the rigid adult exoskeleton of <I>T. molitor</I>.</P> <P><B>Highlights</B></P> <P> <UL> <LI> CDNAs for seven key enzymes involved in <I>Tenebrio</I> cuticle tanning were cloned. </LI> <LI> Rigid cuticle has brownish exo-, dark meso- and transparent endocuticular layers. </LI> <LI> RNAi of target genes causes abnormal regional and temporal pigmentation. </LI> <LI> NBAD and NADA are associated with brownish exocuticle and less pigmented endocuticle. </LI> <LI> NADA-tanning produces a dark pigmented mesocuticle layer and overall adult body color. </LI> </UL> </P> <P><B>Graphical abstract</B></P> <P>[DISPLAY OMISSION]</P>
Functional genomics of cuticular proteins, TcCPLCPs, in the red flour beetle, Tribolium castaneum
Seulgi Mun,Mi Young Noh,Yasuyuki Arakane 한국응용곤충학회 2018 한국응용곤충학회 학술대회논문집 Vol.2018 No.04
Insect structural cuticular proteins (CPs) play a major role in determining the diverse physical properties of the cuticle as a result of interactions/cross-linking among themselves and with chitin. CP genes compose a large gene family and have been classified more than ten distinct families based on the presence of unique amino acid sequence motifs. In this study, we performed RNAi-based functional analysis of eleven genes (TcCPLCP1-11) in Tribolium castaneum, which belong to CPLCP (Cuticular Proteins of Low Complexity, Proline rich) cuticular protein family. RNAi for TcCPLCP7-11 caused lethal pupal-adult molting defects and/or abnormal cuticle morphology in the resulting adults. Ultrastructural defects of the cuticles from TcCPLCP7-11-deficient insects by TEM are also discussed.
Seulgi Mun,Mi Young Noh,Subbaratnam Muthukrishnan,Karl J. Kramer,Yasuyuki Arakane 한국응용곤충학회 2018 한국응용곤충학회 학술대회논문집 Vol.2018 No.10
Chitin deacetylases (CDAs) are extracellular-modifying enzymes that deacetylate chitin to produce chitosan. In insects, this modification may contribute to the affinity and/or cross-linking of chitin/chitosan-like polysaccharides for a variety of structural proteins, which may lead to diverse mechanical properties of the cuticle. We previously reported the functional importance of Group I CDAs, TcCDA1 and TcCDA2, as well as the two alternative spliced isoforms of the latter, TcCDA2a and TcCDA2b from the red flour beetle, Tribolium castaneum in molting, morphology of cuticle and movement of legs. In this study, we further analyzed protein localization, ultrastructural defects of the cuticles and leg joints after RNAi of those genes. Both proteins are mainly present in the innermost procuticle region called the “assembly zone”. Loss of function of either TcCDA1 or TcCDA2 caused disorganized chitinous horizontal laminae and vertical pore canals in both the rigid and soft cuticles. RNAi of TcCDA2b affects cuticle integrity similar to that seen in RNAi of the two alternatively spliced forms of TcCDA2. In contrast, TcCDA2a-deficient adult, like that seen in the hypomorphic phenotype produced by RNAi of TcCDA1, exhibited ruptured tendons between femur and tibia, resulting in loss of locomotion ability. These results suggest that Group I CDAs play critical roles in molting, morphology, ultrastructure and mobility in T. castaneum. This work was supported by NRFs (NRF-2015R1A6A3A04060323 and NRF-2018R1A2B6005106).
Seulgi Mun,Mi Young Noh,Yasuyuki Arakane 한국응용곤충학회 2017 한국응용곤충학회 학술대회논문집 Vol.2017 No.04
Insect cuticle/exoskeleton covering the entire external surface of the body is essential for protecting insects from various environmental stresses. Tyrosine metabolism plays a major role in not only the darkening of cuticle but also its hardening. In this work, we have focused on the functional analysis of nine genes involved in tyrosine-mediated cuticle tanning (pigmentation and sclerotization) pathway in Tenebrio molitor, which has a unique adult cuticle coloration, dark/black dorsal thorax and elytron, and reddish ventral thorax and abdomen. The temporal and spatial expression patterns of the genes were analyzed by real-time PCR, and RNA interference (RNAi) was performed to study the functional importance of these genes in cuticle coloration and/or hardening in T. molitor. This work was supported by NRFs (NRF-2015R1A2A2A01006614 and NRF-2015R1A6A3A04060323).
TcCP30, non-RR Structural Cuticular Protein, is Required for Exoskeleton Morphogenesis of a Beetle
Seulgi Mun,Mi Young Noh,Yasuyuki Arakane 한국응용곤충학회 2014 한국응용곤충학회 학술대회논문집 Vol.2014 No.10
In insect exoskeleton/cuticle, structural cuticular proteins (CPs) and the polysaccharide chitin are the major components of the procuticle. CPs are cross-linked by quinones or quinone methides produced by the laccase2 (Lac2)- mediated oxidation of N-acylcatechols. We reported that two major CPs, TcCPR27 and TcCPR18, belong to the CPR family that contain the RR-2 consensus motif (Rebers & Riddiford), are essential for formation and stabilization of the rigid cuticle of Tribolium castaneum adults. In this study, we characterized and investigated functions of the third most abundant protein, TcCP30, in extracts of elytra. TcCP30 cDNA encodes a protein with 171 amino acid residues containing a putative signal peptide. Unlike TcCPR27 and TcCPR18, TcCP30 mature protein lacks an RR motif, with a very unique amino composition, 36% Glu, 21% His, 20% Arg and 16% Gly. TcCP30 gene is highly expressed right before and after eclosion (in 5 d-old pupae and 0 d-old adults). Immunohistochemical studies revealed that TcCP30 protein was present in rigid cuticle such as elytra and ventral abdomen but not soft cuticle such as hindwings and dorsal abdomen of adult T. castaneum. Injection of dsRNA for TcCP30 into late instar larvae had no affect on larval and pupal growth and development. However, the subsequent pupal-adult molt, more than 50% adults were unable to shed their exuvium and died entrapped in their pupal cuticle. In addition, the resulting adults exhibited wrinkled, warped and split elytra. TcCP30-deficient adults could not fold their hindwings properly because probably due to the malformed elytra. These results indicate that TcCP30 is critical for formation of rigid adult cuticle as well as development and growth of T. castaneum.