Atsunobu Haga scite author profile

Three chitinase isozymes, HoChiA, HoChiB, and HoChiC, were purified from the stomach of the greenling, Hexagrammos otakii, by ammonium sulfate fractionation, followed by column chromatography on Chitopearl Basic BL-03 and CM-Toyopearl 650S. The molecular masses and pIs of HoChiA, HoChiB, and HoChiC are 62 kDa and pH 5.7, 51 kDa and pH 7.6, and 47 kDa and pH 8.8, respectively. Substrate specificities of these chitinases were compared with those of another fish stomach chitinase from the common mackerel, Scomber japonicus (SjChi), as well as two from the tobacco hornworm, Manduca sexta (MsChi535 and MsChi386). The efficiency parameters, kcat/Km, toward glycolchitin for HoChiA and SjChi were larger than those for HoChiB and HoChiC. The relative activities of HoChiA and SjChi toward various forms of chitin were as follows: shrimp shell or crab shell alpha-chitin > beta-chitin >> silkworm cuticle alpha-chitin. On the other hand, the relative activities of HoChiB and HoChiC were beta-chitin >> silkworm alpha-chitin > shrimp and crab alpha-chitin. MsChi535 preferred silkworm alpha-chitin to shrimp and crab alpha-chitins, and no activity was observed toward beta-chitin. MsChi386, which lacked the C-terminal linker region and the chitin-binding domain, did not hydrolyze silkworm alpha-chitin. These results demonstrate that fish and insect chitinases possess unique substrate specificities that are correlated with their physiological roles in the digestion of food or cuticle.

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Release Mechanism from a Microsphere of a Silkworm Chitin Derivative Studied by Single Microparticle Injection and Absorption Microspectroscopy

Nakatani

Kobayashi

Haga

2008

ANAL. SCI.

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The release process of phenol blue from a dibutyrylchitin microsphere, prepared with chitin from a silkworm, into an aqueous solution was kinetically analyzed by single microparticle injection/manipulation and absorption microspectroscopy. The distribution ratio and the release rate of phenol blue in the single microsphere/water system were significantly influenced by the pH of the solution. These results are discussed in terms of the protonation of phenol blue and dibutyrylchitin, and the pore and surface diffusion in the pores of the microsphere.

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Atsunobu Haga

Structure of insect chitin isolated from beetle larva cuticle and silkworm (Bombyx mori) pupa exuvia

Substrate Specificity of Chitinases from Two Species of Fish, Greenling,Hexagrammos otakii, and Common Mackerel,Scomber japonicus, and the Insect, Tobacco Hornworm,Manduca sexta

Release Mechanism from a Microsphere of a Silkworm Chitin Derivative Studied by Single Microparticle Injection and Absorption Microspectroscopy

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