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Role of Lysine-54 in determining cofactor specificity and binding in human dihydrofolate reductase

Journal Article · · Biochemistry; (USA)
DOI:https://doi.org/10.1021/bi00487a011· OSTI ID:5763078
; ; ;  [1]; ;  [2]; ;  [3]
  1. Medical College of Ohio, Todedo (USA)
  2. St. Jude Children's Research Hospital, Memphis, TN (USA)
  3. Lederle Laboratories, Pearl River, NY (USA)
+ Show Author Affiliations
Lysine-54 of human dihydrofolate reductase (hDHFR) appears to be involved in the interaction with the 2{prime}-phosphate of NADPH and is conserved as a basic residue in other species. Studies have suggested that in Lactobacillus casei dihydrofolate reductase Arg-43, the homologous residue at this position, plays an important role in the binding of NADPH and in the differentiation of K{sub m} values for NADPH and NADH. A Lys-54 to Gln-54 mutant (K54Q) of hDHFR has been constructed by oligodeoxynucleotide-directed mutagenesis in order to study the role of Lys-54 in differentiating K{sub m} and k{sub cat} values for NADPH and NADH as well as in other functions of hDHFR. The purpose of this paper is to delineate in quantitative terms the magnitude of the effect of the Lys-54 to Gln-54 replacement on the various kinetic parameters of hDHFR. Such quantitative effects cannot be predicted solely on the basis of X-ray structures. The ratio of K{sub m}(NADH)/K{sub m}(NADPH) decreases from 69 in the wild-type enzyme to 4.7 in the K54Q enzyme, suggesting that Lys-54, among other interactions between protein side-chain residues and the 2{prime}-phosphate, makes a major contribution in terms of binding energy and differentiation of K{sub m} values for NADPH and NADH. Agents at concentrations that show activating effects on the wild-type enzyme such as potassium chloride and urea all inactivate the K54Q enzyme. There appear to be no gross conformational differences between wild-type and K54Q enzyme molecules as judged by competitive ELISA using peptide-specific antibodies against human dihydrofolate reductase and from protease susceptibility studies on both wild-type and K54Q mutant enzymes. The pH-rate profiles using NADPH for K54Q and wild-type enzymes show divergences at certain pH values, suggesting the possibility of alteration(s) in the steps of the catalytic pathway for the K54Q enzyme.
OSTI ID:
5763078
Journal Information:
Biochemistry; (USA), Journal Name: Biochemistry; (USA) Vol. 29:35; ISSN 0006-2960; ISSN BICHA
Country of Publication:
United States
Language:
English

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Related Subjects

550201* -- Biochemistry-- Tracer Techniques
59 BASIC BIOLOGICAL SCIENCES
AMINO ACIDS
BETA DECAY RADIOISOTOPES
BETA-MINUS DECAY RADIOISOTOPES
BIOASSAY
BIOCHEMICAL REACTION KINETICS
BIOCHEMISTRY
BIOLOGICAL PATHWAYS
CARBOXYLIC ACIDS
CHEMISTRY
COENZYMES
DAYS LIVING RADIOISOTOPES
DNA-ASE
ENDONUCLEASES
ENZYME IMMUNOASSAY
ENZYMES
ESTERASES
EVEN-ODD NUCLEI
GLYCINE
HYDROLASES
IMMUNOASSAY
ISOTOPES
KINETICS
LIGHT NUCLEI
LYSINE
NADP
NUCLEI
NUCLEOTIDES
ORGANIC ACIDS
ORGANIC COMPOUNDS
OXIDOREDUCTASES
PEPTIDES
PH VALUE
PHOSPHODIESTERASES
PROTEINS
RADIOISOTOPES
REACTION KINETICS
SULFUR 35
SULFUR ISOTOPES