Molecular cloning and functional properties of two early-stage encapsulation-relating proteins from the coleopteran insect, Tenebrio molitor larvae.

Encapsulation is a major defensive reaction against foreign materials that are too large to be phagocytosed by individual hemocytes; however, the biochemical process of encapsulation is still obscure. To isolate and characterize the early-stage encapsulation-relating protein (ERP), we used the coleopteran insect, Tenebrio molitor larvae, injecting three differing kinds of bead or inserting pieces of surgical suture into the abdomen of T. molitor larvae. The resulting proteins from the injected beads or the inserted pieces of surgical suture were recovered 10 min after injection or insertion, and were analyzed on SDS/PAGE under reducing conditions. Four different proteins (86, 78, 56 and 48 kDa) were enriched compared with the crude hemolymph. Among them, we purified 56-kDa and 48-kDa ERPs to homogeneity and raised polyclonal antibodies against each protein. Immunoblotting analysis showed that the affinity-purified antibodies of the 56-kDa and 48-kDa ERPs cross-reacted with the 48-kDa and 56-kDa ERPs, respectively. Analysis of the cDNA of 56-kDa ERP consisted of 579 amino acid residues and showed a novel glutamine-rich protein. Positive clones of the 48-kDa ERP showed the same DNA sequence as 56-kDa ERP. Interestingly, the chemically determined N-terminal amino acid sequence and the three partial amino acid sequences of the 48-kDa protein were found in the 56-kDa ERP, suggesting that the 48 kDa ERP was produced by the cleavage of Arg101-Gly102 of the 56-kDa ERP by a limited proteolysis. Western blotting analysis showed that these ERPs were detected exclusively on membrane fractions of hemocytes. Also, when the early-stage encapsulated beads were coated with both the 56-kDa and 48-kDa ERP antibodies and re-injected into larvae, no further encapsulation reaction was observed. However, when the early-stage encapsulated beads were incubated with 56-kDa ERP antibody, 48-kDa ERP antibody or nonimmunized rabbit IgG and re-injected into larvae, further encapsulation did occur.     

The pro-phenoloxidase of coleopteran insect, Tenebrio molitor, larvae was activated during cell clump/cell adhesion of insect cellular defense reactions

To characterize the proteins involved in cell clump/cell adhesion of insect cellular defense reactions, we induced the cell clump/cell adhesion reaction in vitro with the hemolymph of larvae of the coleopteran insect, Tenebrio molitor. The 72 kDa protein was specifically enriched in the residues of cell clump/cell adhesion and was purified to homogeneity. A cDNA clone for the 72 kDa protein was isolated. We found that the 72 kDa protein was an activated phenoloxidase from Tenebrio pro-phenoloxidase. We suggest that activated phenoloxidase is involved in the cell clump/cell adhesion reaction as well as in the synthesis of melanin.     

TmSR-C,scavenger receptor class C,plays a pivotal role in antifungal and antibacterial immunity in the coleopteran insect Tenebrio molitor

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Characterization and cloning of a Tenebrio molitor hemolymph protein with sequence similarity to insect odorant-binding proteins

The yellow mealworm beetle, Tenebrio molitor, produces a number of moderately abundant low molecular weight hemolymph proteins ( approximately 12 kDa) which behave in a similar manner during purification and share antigenic epitopes. The cDNA sequence of the major component (THP12) was determined and the deduced protein sequence was found to be similar to those of insect odorant-binding proteins. Southern blot analysis suggests that at least some of the diversity in this family of proteins is encoded at the gene level. Both northern and western blot analysis indicate that THP12 is present in a variety of developmental stages and both sexes. THP12 was originally classified as an antifreeze protein, but the lack of antifreeze activity in the recombinant protein, as well as the clear separation of the antifreeze activity from THP12 following HPLC purification, has ruled out this function. The abundance of THP12, the similarity of THP12 to insect odorant-binding proteins, and the presence of hydrophobic cavities inside the protein (Rothemund et al., A new class of hexahelical insect proteins revealed as putative carriers of small hydrophobic ligands. Structure, 7 (1999) 1325-1332.) suggest that THP12 may function to carry non-water soluble compounds in the hemolymph. THP12 is also similar, particularly in structurally important regions, to other insect proteins from non-sensory tissues, suggesting the existence of a large family of carrier proteins which may perform diverse functions throughout the insect.     

Screening for mycotoxins with larvae of Tenebrio molitor.

Larvae of the yellow mealworm, Tenebrio molitor, were used to screen isolates of field and storage fungi, included in their dietary substrate, for mycotoxins. Feeding of three isolates of Fusarium roseum, two of Fusarium equiseti and of Fusarium nivale, and one of an unidentified species of Fusarium resulted in growth depression of the larvae. One isolate of an unidentified species of Myrothecium was also toxic to larvae of Tenebrio molitor. Mycotoxin production was apparently dependent, not only on the fungal isolate, but also on the culture conditions under which the fungus was grown. Some fungal isolates had growth-promoting qualities for larvae of Tenebrio molitor.     

Mechanism of dealkylation of clionasterol in the insect Tenebrio molitor.

1. 25-3H- and 26-14C-labelled (24S)-24-ethylcholest-5-en-3beta-ol (clionasterol) were synthesized from (24S)-24-ethylcholesta-5,25-dien-3beta-ol. 2. These labelled substrates were mixed and administered, together with the hypocholesterolemic agent, triparanol citrate, to Tenebrio molitor larvae. 3. The 3H label from the clionasterol substrate was retained in both the desmosterol and the cholesterol isolated from the larvae. 4. Location of this 3H label in the desmosterol showed that dealkylation of the clionasterol involved 3H migration from C-25 to C-24. A possible mechanism for dealkylation is presented.     

A zymogen form of masquerade-like serine proteinase homologue is cleaved during pro-phenoloxidase activation by Ca2+ in coleopteran and Tenebrio molitor larvae.

To elucidate the biochemical activation mechanism of the insect pro-phenoloxidase (pro-PO) system, we purified a 45-kDa protein to homogeneity from the hemolymph of Tenebrio molitor (mealworm) larvae, and cloned its cDNA. The overall structure of the 45-kDa protein is similar to Drosophila masquerade serine proteinase homologue, which is an essential component in Drosophila muscle development. This Tenebrio masquerade-like serine proteinase homologue (Tm-mas) contains a trypsin-like serine proteinase domain in the C-terminal region, except for the substitution of Ser to Gly at the active site triad, and a disulfide-knotted domain at the amino-terminal region. When the purified 45-kDa Tm-mas was incubated with CM-Toyopearl eluate solution containing pro-PO and other pro-PO activating factors, the resulting phenoloxidase (PO) activity was shown to be independent of Ca2+. This suggests that the purified 45-kDa Tm-mas is an activated form of pro-PO activating factor. The55-kDa zymogen form of Tm-mas was detected in the hemolymph when PO activity was not evident. However, when Tenebrio hemolymph was incubated with Ca2+, a 79-kDa Tenebrio pro-PO and the 55-kDa zymogen Tm-mas converted to 76-kDa PO and 45-kDa Tm-mas, respectively, with detectable PO activity. Furthermore, when Tenebrio hemolymph was incubated with Ca2+ and beta-1,3-glucan, the conversion of pro-PO to PO and the 55-kDa zymogen Tm-mas to the 45-kDa protein, was faster than in the presence of Ca2+ only. These results suggest that the cleavage of the 55-kDa zymogen of Tm-mas by a limited proteolysis is necessary for PO activity, and the Tm-mas is a pro-PO activating cofactor.     

黄粉虫幼虫营养成分分析和保健功能的实验研究

对黄粉虫幼虫干粉的营养成分分析显示,其蛋白质和氨基酸含量分别占干重的５９．７０％和５９．５９％;不饱和脂肪酸占总脂肪酸含量的７７．０５％,其中仅亚油酸就占总脂肪酸含量的４１．７０％。有饰物 含量均低于国家标准。有机硒含量高达３４μｇ／１００ｇ。维生素Ａ和Ｅ含量分别为３３７和８９８μｇ／１００ｇ。实验表明,干粉液无毒性。具有较好的抗疲劳,延缓衰老和降低血清胆固醇的功能,并能提高小鼠外周淋巴细胞转化率     

A chymotrypsin-like proteinase from the midgut of Tenebrio molitor larvae

A chymotrypsin-like proteinase was isolated from the posterior midgut of larvae of the yellow mealworm, Tenebrio molitor, by ion-exchange and gel filtration chromatography. The enzyme, TmC1, was purified to homogeneity as determined by SDS-PAGE and postelectrophoretic activity detection. TmC1 had a molecular mass of 23.0 kDa, pI of 8.4, a pH optimum of 9.5, and the optimal temperature for activity was 51 degrees C. The proteinase displayed high stability at temperatures below 43 degrees C and in the pH range 6.5-11.2, which is inclusive of the pH of the posterior and middle midgut. The enzyme hydrolyzed long chymotrypsin peptide substrates SucAAPFpNA, SucAAPLpNA and GlpAALpNA and did not hydrolyze short chymotrypsin substrates. Kinetic parameters of the enzymatic reaction demonstrated that the best substrate was SucAAPFpNA, with k(cat app) 36.5 s(-1) and K(m) 1.59 mM. However, the enzyme had a lower K(m) for SucAAPLpNA, 0.5 mM. Phenylmethylsulfonyl fluoride (PMSF) was an effective inhibitor of TmC1, and the proteinase was not inhibited by either tosyl-l-phenylalanine chloromethyl ketone (TPCK) or N(alpha)-tosyl-l-lysine chloromethyl ketone (TLCK). However, the activity of TmC1 was reduced with sulfhydryl reagents. Several plant and insect proteinaceous proteinase inhibitors were active against the purified enzyme, the most effective being Kunitz soybean trypsin inhibitor (STI). The N-terminal sequence of the enzyme was IISGSAASKGQFPWQ, which was up to 67% similar to other insect chymotrypsin-like proteinases and 47% similar to mammalian chymotrypsin A. The amino acid composition of TmC1 differed significantly from previously isolated T. molitor enzymes.     

Physical and catalytic properties of alpha-amylase from Tenebrio molitor L. larvae.

The amylase from Tenebrio molitor L. larvae (yellow mealworm) was characterized according to a number of its molecular and catalytic properties. The insect amylase is a single polypeptide chain with mol.wt. 68000, an isoelectric point of 4.0 and a very low content of sulphur-containing amino acids. The enzyme is a Ca2+-protein and behaves as an alpha-amylase. Removal of Ca2+ by exhaustive dialysis against water causes the irreversible inactivation of the enzyme. Moreover, the enzyme is activated by the presence in the assay mixture of Cl-, or some other inorganic anions that are less effective than Cl-, and is inhibited by F-. Optimal conditions of pH and temperature for the enzymic activity are 5.8 and 37 degrees C. The insect amylase exhibits an identical kinetic behaviour toward starch, amylose and amylopectin; the enzyme hydrolyses glycogen with a higher affinity constant. Compared with the non-insect alpha-amylases described in the literature, Tenebrio molitor amylase has a lower affinity for starch.     

Synthesis, cardiostimulatory, and cardioinhibitory effects of selected insect peptides on Tenebrio molitor

The subject of these studies was a search for proctolin antagonists among peptides originating from insect species because the proctolin antagonists constantly pose a problem. During these studies we performed the synthesis of the following peptides: a native decapeptide from Manduca sexta Mas-MT-I and its 11 analogs with shortened sequences at the N-end as well as a growth suppressor, a pentapeptide isolated from Antheraea yamamai, Any-GS and its 10 analogs, modified at position 1 and with a shortened peptide chain.Biological effects were evaluated by the cardiotropic test on the semi-isolated heart of the insect species Tenebrio molitor. Mas-MT-I and six analogs stimulate the heartbeat frequency, especially [6-10]-Mas-MT-I, whereas the [4-10]-Mas-MT-I analog shows a strong inhibition of the heartbeat frequency, if insect. The Any-GS and the analogs [Gln(1)]- and [Gly(1)]-Any-GS also show a strong cardioinhibitory effect.     

Effect of hydrocortisone on the growth and development of larvae Tenebrio molitor

Hydrocortisone administered with the food causes inhibition of growth in larvae Tenebrio molitor. Hydrocortisone together with the reduction in the rate of growth retards the moulting cycle in larvae T. molitor. The action of hydrocortisone does not influence greatly the number of larvae moulting cycles.     

黄粉虫复合氨基酸的提取及氨基酸虫酒的制作

本研究在对黄粉虫幼虫所含的复合氨基酸3种提取方法及其所制成的氨基酸虫酒进行分析比较的基础上,得出最佳方案和数据：用酶解法处理虫浆可得到占干虫重31.5％酶解滤粉和31.06％复合氨基酸粉,是用水解法提取出复合氨基酸粉的2.1倍。在虫体原料重量相同的条件下,酶解滤粉酒中复合氨基酸浓度分别是水解滤粉酒和虫粉酒中复合氨基酸浓度的2.7和13倍。若制成氨基酸浓度为5mp／mL的虫酒,仅需幼虫21.5g,折合成用虫成本费0.5元左右。     

饲养密度对黄粉虫幼虫生长发育的影响

黄粉虫原是一种仓库害虫 ,由于其幼虫、蛹、成虫都含有丰富的蛋白质和多种氨基酸 ,已被作为饲用资源昆虫来开发利用。作为一种群集性的昆虫 ,黄粉虫幼虫的生长受密度影响可分为 2个阶段 ,一是幼虫孵化后 1个月这段时间内 ,高密度处理的幼虫平均体重大于低密度处理的幼虫平均体重 ;二是孵化 1个月后直到化蛹 ,这段时间低密度的幼虫生长要比高密度的幼虫快得多。密度越大 ,历期越长。但密度对化蛹率没有影响。在幼虫生长过程中 ,各处理组中只有 3 2 0头虫密度处理组的幼虫在生长 1个月后显出拥挤效应。