Biochemical characterization of coumarin 7-hydroxylase activity in chick embryo liver microsomes

1992 ◽  
Vol 43 (2) ◽  
pp. 363-369 ◽  
Author(s):  
Douglas E. Goeger ◽  
Karl E. Anderson
Keyword(s):  
Chick Embryo ◽  
Biochemical Characterization ◽  
Liver Microsomes ◽  
Hydroxylase Activity ◽  
Embryo Liver ◽  
Coumarin 7

scholarly journals ISOLATION AND BIOCHEMICAL CHARACTERIZATION OF NUCLEI FROM CHICK EMBRYO LIVER

1971 ◽  
Vol 50 (2) ◽  
pp. 385-398 ◽  
Author(s):  
Genevieve S. Incefy ◽  
Attallah Kappas
Keyword(s):  
Electron Microscope ◽  
Chick Embryo ◽  
Rna Polymerase ◽  
Biochemical Characterization ◽  
Nuclear Fraction ◽  
Dna Recovery ◽  
Isolated Nuclei ◽  
Sucrose Solutions ◽  
Embryo Liver

A procedure is described for the isolation of enzymatically active nuclei from chick embryo liver. It consists of the homogenization of the pooled tissue in 0.32 M sucrose-3 mM MgCl2 followed by a slow centrifugation. The resulting nuclear pellet is then purified further in a discontinuous density gradient composed of sucrose solutions containing Mg2+ ions, the lower portion of the gradient being 2.2 M sucrose-1 mM MgCl2. Based on DNA recovery, the nuclear fraction isolated by the procedure described contained an average of 62% of the nuclei in the original filtered homogenate. Light and electron microscope examinations showed that 90% of the isolated nuclei were derived from hepatocytes. They appeared intact with well preserved nucleoplasmic and nucleolar components, nuclear envelope, and pores. The isolated nuclei were quite pure, having a very low level of cytoplasmic contamination as indicated by cytoplasmic enzyme marker activities and electron microscope studies. The nuclear fraction consisted of 19.9% DNA, 6.2% RNA, 74% protein, the average RNA/DNA ratio being 0.32. Biosynthetic activities of the two nuclear enzymes NAD-pyrophosphorylase and DNA-dependent RNA polymerase were preserved. The specific activities of these enzymes were: NAD-pyrophosphorylase, 0.049 µmoles nicotinamide adenine dinucleotide (NAD) synthesized/min per mg protein; Mg2+ activated RNA polymerase, 4.3 µµmoles UMP-2-C14 incorporated into RNA/µg DNA per 10 min; and Mn2+-(NH4)2SO4 activated RNA-polymerase, 136 µµmoles UMP-2-C14 incorporated into RNA/µg DNA per 45 min.

Inhibition of Coumarin 7-Hydroxylase Activity in Human Liver Microsomes

1997 ◽  
Vol 341 (1) ◽  
pp. 47-61 ◽  
Author(s):  
Alison J. Draper ◽  
Ajay Madan ◽  
Andrew Parkinson
Keyword(s):  
Human Liver ◽  
Liver Microsomes ◽  
Human Liver Microsomes ◽  
Hydroxylase Activity ◽  
Coumarin 7

scholarly journals Identification of the human liver cytochrome P-450 responsible for coumarin 7-hydroxylase activity

1990 ◽  
Vol 267 (2) ◽  
pp. 365-371 ◽  
Author(s):  
J S Miles ◽  
A W McLaren ◽  
L M Forrester ◽  
M J Glancey ◽  
M A Lang ◽  
...  
Keyword(s):  
Human Liver ◽  
Liver Microsomes ◽  
Microsomal Protein ◽  
Hydroxylase Activity ◽  
Liver Cytochrome ◽  
Partial Length ◽  
Coumarin 7 ◽  
Human Livers ◽  
Cell Expression ◽  
Cytochrome P 450

1. We have constructed a full-length human liver cytochrome P450IIA cDNA from a partial-length clone by oligonucleotide-directed mutagenesis, and subcloned it into the monkey kidney (COS-7) cell expression vector, pSVL. 2. The cDNA encodes a 49 kDa protein with coumarin 7-hydroxylase (COH) activity which cross-reacts with antisera to the mouse cytochrome P-450 isoenzyme responsible for COH activity and comigrates with a human liver microsomal protein. 3. Western blot analysis of a panel of human livers indicates that the level of the 49 kDa protein, detected using antisera to either the mouse COH P-450 or rat P450IIA1 protein, correlates very highly with COH activity. 4. Antisera to the rat P450IIA1 protein can inhibit COH activity in human liver microsomes. Taken together, these data indicate that a member of the P450IIA subfamily is responsible for most, if not all, of the COH activity in human liver.

scholarly journals Immunological characterization of lysyl hydroxylase, an enzyme of collagen synthesis

1981 ◽  
Vol 195 (3) ◽  
pp. 669-676 ◽  
Author(s):  
Taina M. Turpeenniemi-Hujanen
Keyword(s):  
Chick Embryo ◽  
Cross Reactivity ◽  
Chick Embryos ◽  
Hydroxylase Activity ◽  
Double Immunodiffusion ◽  
Precipitation Line ◽  
Immunological Characterization ◽  
Lysyl Hydroxylase ◽  
Activity Inhibition

Antibodies to pure lysyl hydroxylase from whole chick embryos were prepared in rabbits and used for immunological characterization of this enzyme of collagen biosynthesis. In double immunodiffusion a single precipitation line was seen between the antiserum and crude or pure chick-embryo lysyl hydroxylase. The antiserum effectively inhibited chick-embryo lysyl hydroxylase activity, whether measured with the biologically prepared protocollagen substrate or a synthetic peptide consisting of only 12 amino acids. This suggests that the antigenic determinant was located near the active site of the enzyme molecule. Essentially identical amounts of the antiserum were required for 40% inhibition of the same amount of lysyl hydroxylase activity units from different chick-embryo tissues synthesizing various genetically distinct collagen types. In double immunodiffusion a single precipitation line of complete identity was found between the antiserum and the purified enzyme from whole chick embryos and the crude enzymes from chick-embryo tendon, cartilage and kidneys. These results do not support the hypothesis that lysyl hydroxylase has collagen-type-specific or tissue-specific isoenzymes with markedly different specific activities or immunological properties. The antibodies to chick-embryo lysyl hydroxylase showed a considerable degree of species specificity when examined either by activity-inhibition assay or by double immuno-diffusion. Nevertheless, a distinct, although weak, cross-reactivity was found between the chick-embryo enzyme and those from all mammalian tissues tested. The antiserum showed no cross-reactivity against prolyl 3-hydroxylase, hydroxylysyl galactosyl-transferase or galactosylhydroxylysyl glucosyltransferase in activity-inhibition assays, whereas a distinct cross-reactivity was found against prolyl 4-hydroxylase. Furthermore, antiserum to pure prolyl 4-hydroxylase inhibited lysyl hydroxylase activity. These findings suggest that there are structural similarities between these two enzymes, possibly close to or at their active sites.

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