Yong Chul Park scite author profile

A high-affinity juvenile hormone binding protein was purified from the hemolymph of the tobacco hornworm, Manduca sexta, employing ammonium sulfate precipitation and affinity and sizeseparation chromatography. The naturally occurring enantiomer of juvenile hormone III (107?) was converted to juvenile hormone III acid and then covalently attached to aminohexyl-Sepharose 4B. Hemolymph from early fifth stadium (60 h postecdysis) larvae was used as the source of hJHBP. The yield of hJHBP was approximately 25% of the starting material, with 3.5 mg of highly purified, biologically active hJHBP recovered from 100 mL of hemolymph. Binding parameters were examined using equilibrium dialysis and highly purified, enantiomerically correct juvenile hormone I and II and racemic JH III. The equilibrium dissociation constants for juvenile hormone I and II were approximately 6 X 10-10 M at 4 °C, while racemic juvenile hormone III displayed an equilibrium dissociation constant of 1.9 X 10~9M. At25 °C the equilibrium dissociation constant for juvenile hormone I was 1.6 X 10-9 M. Half-times of dissociation were also determined for the three homologs.

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Development and partial characterization of monoclonal antibodies to the hemolymph juvenile hormone binding protein of Manduca sexta

Goodman¹,

Park²,

Johnson³

1990

Insect Biochemistry

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Analysis and Modification of Thiols in the Hemolymph Juvenile Hormone Binding Protein of Manduca sexta

Park

Goodman

1993

Archives of Biochemistry and Biophysics

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Postendocytic Provitellin Processing in the Growing Oocyte of the Short Horned Grasshopper, Oxyajaponicajaponica (Orthoptera: Acrididae)

Cho

Park

2004

Entomological Research

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Polyclonal antibodies made against 86 kDa (86 k), 80 kDa (80 k) and 54 kDa (54 k) vitellins of Oxya japonica japonica are used for Western blotting. Anti‐80k vitellin antibody is cross‐reacted with a 95 kDa (95 k) vitellin. While 95 k vitellin is present both in the female hemolymph and in the oocyte, 80 k vitellin is detected only in the oocyte and the laid egg. In the growing oocytes, as 95 k vitellin is faded out gradually, 80 k vitellin is accumulated increasingly, indicating postendocytic processing of 95 k vitellin brings 80 k vitellin. Further conforming the hypothesis, partial digestion of 95 k vitellin with pepsin and α‐chymotrypsin makes several protein bands of molecular weight around 80 kDa. Thus, the 95k vitellin may have a cleavage site (s) to produce 80 k vitellin which forms fairly stable tertiary structure. In the reduced condition (20 mM glutathion), both 95 k and 80 k vitellins were digested throughly by endogenous proteinase at pH 4. Both 86 k and 54 k vitellins, respectively, show no apparent molecular weight changes in the growing oocyte and in the hemolymph.

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cDNA cloning and induction of tyrosine hydroxylase gene from the diamondback moth, Plutella xylostella

Hwang

Cho

Park

2010

Arch Insect Biochem Physiol

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We cloned a full-length tyrosine hydroxylase cDNA from the integument of the diamondback moth, Plutella xylostella. In the phylogenetic tree, tyrosine hydroxylase (PxTH) clustered with the other lepidopteran THs. Serine residues in the PxTH sequence, namely Ser(24), Ser(31), Ser(35), Ser(53), and Ser(65), were predicted to be the target sites for phosphorylation based on PROSITE analysis. In particular, Ser(35) of PxTH is highly conserved across a broad phylogenetic range of animal taxa including rat and human. Western blot analysis using both PxTH-Ab1 and PxTH-Ab2 polyclonal antibodies verified the expression of PxTH in all life cycle stages of P. xylostella, namely the larval, pupal, and adult stages. To examine the possible immune function of PxTH in P. xylostella, PxTH gene expression was investigated by RT-PCR and western blotting analysis after challenging P. xylostella with bacteria. PxTH expression was elevated 1 h post-infection and was continued till 12 h of post-infection relative to control larvae injected with sterile water.

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Yong Chul Park

Affinity purification and binding analysis of the hemolymph juvenile hormone binding protein from Manduca sexta

Development and partial characterization of monoclonal antibodies to the hemolymph juvenile hormone binding protein of Manduca sexta

Analysis and Modification of Thiols in the Hemolymph Juvenile Hormone Binding Protein of Manduca sexta

Postendocytic Provitellin Processing in the Growing Oocyte of the Short Horned Grasshopper, Oxyajaponicajaponica (Orthoptera: Acrididae)

cDNA cloning and induction of tyrosine hydroxylase gene from the diamondback moth, Plutella xylostella

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