Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0027960 (
mole
)
21,279
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The Saccharomyces cerevisiae CPT1 and EPT1 genes are structural genes encoding distinct sn-1,2-diacylglycerol choline- and ethanolaminephosphotransferases. A haploid cpt1 ept1 double null mutant lacked detectable choline- and ethanolaminephosphotransferase activity but was viable for growth, establishing that these enzymes are nonessential. The activities of the CPT1 and EPT1 gene products were independently studied in membranes prepared from strains mutant in the cognate locus using mixed micellar assays. Both enzymes absolutely required phospholipid cofactors; half-maximal activation was observed at low
mole
fractions, suggesting that a small number of phospholipid molecules are required. The activities of the CPT1 and EPT1 gene products were compared with respect to dioleoylglycerol dependence, CDP-aminoalcohol specificity, phospholipid activation, and inhibition by
CMP
. The EPT1 gene product utilized CDP-ethanolamine, -monomethylethanolamine, -dimethylethanolamine, and -choline to significant extents, while the CPT1 gene product manifested relative specificity for CDP-choline and -dimethylethanolamine. The CPT1 and EPT1 gene products exhibited differing properties with respect to phospholipid activation, but this difference was dependent on the CDP-aminoalcohol substrate. In contrast, the two enzymes could be distinguished on the basis of their dioleoylglycerol dependencies, activation by Mg2+, and
CMP
inhibition profiles regardless of the CDP-aminoalcohol substrate employed. These studies provide the first definitive kinetic properties of individual choline- and ethanolaminephosphotransferases.
...
PMID:sn-1,2-diacylglycerol choline- and ethanolaminephosphotransferases in Saccharomyces cerevisiae. Mixed micellar analysis of the CPT1 and EPT1 gene products. 184 19
The E(280)/E(260) ratio was found to be suitable for following the ionization of cytosine residues of polynucleotides on the basis of studies with model compounds such as oligoguanylic acid, oligocytidylic acid, a complex formed between polyadenylic acid and polyuridylic acid, and a copolymer of guanylic acid and cytidylic acid, provided that changes in secondary structure were taken into account. The pK of cytosine residues of a polynucleotide in the amorphous form was found to be 4.70 at 25 degrees in 0.1m-sodium phosphate on the basis of titration at 75-85 degrees and on the assumption that the heat of ionization was the same as the value (5.2kcal./
mole
) found for
CMP
. In contrast, the pK of cytosine residues in the double-helical form of DNA was found to be about 3.25. These observations were utilized in estimating the fraction of cytosine residues in helical segments of ribosomal RNA, a copolymer of guanylic acid and cytidylic acid, and a copolymer of adenylic acid, guanylic acid, uridylic acid and cytidylic acid. The ionization of guanine and uracil residues was estimated from changes in the E(270)/E(260) ratio and E(230)/E(260) ratio respectively. In the amorphous form of RNA both residues had the same pK, whereas in the double-helical form ionization was suppressed. The fraction of guanine and uracil residues in amorphous segments may be estimated from the titration curves. The difference in the denaturation spectrum of adenine--uracil and guanine--cytosine base pairs at 280mmu was enhanced in acidic solutions whereas E(260) was hardly affected. Hence a comparison of the increments in E(280) and E(260) obtained on increasing the temperature at constant pH may be used to distinguish the melting ranges of helical domains differing in nucleotide composition. In alkaline solutions comparison of the increments in E(260) and E(270) yields similar information. In acidic solutions the fraction of cytosine residues involved in helical secondary structure, the degree of ionization of cytosine residues and the fraction of adenine--uracil base pairs denatured may be estimated from DeltaE(265) and DeltaE(280). In alkaline solutions the fractions of guanine and uracil residues involved in secondary structure and the degrees of ionization of these residues may be estimated from DeltaE(230), DeltaE(245), DeltaE(260) and DeltaE(280).
...
PMID:A possible method for characterizing the secondary structure of ribonucleic acids. 533 75
1. RNA was isolated from virus-like particles found in Penicillium chrysogenum and resolved into two fractions by gel filtration through agarose columns. 2. Fraction 1 was excluded and had the following properties: 50.9% G+C [AMP 0.246, UMP 0.246,
CMP
0.252, GMP 0.255 (
mole
fraction)]; mol.wt. about 1.2x10(6) daltons; s(20,w) 12.3S and ;melting' temperature about 100 degrees C (solvent 0.15m-sodium chloride-0.015m-sodium citrate pH7.2); optical rotation [alpha](max.) 6000 degrees at 278nm; circular dichroism (epsilon(L)-epsilon(R))(max.)=8.181mol(-1) cm(-1) at 260nm. 3. Properties of fraction 2 include 37.8% G+C [AMP 0.313, UMP 0.312,
CMP
0.186, GMP 0.189 (
mole
fraction)]; mol.wt. about 140000 daltons; s(20,w) 7.3S, T(m) about 85 degrees C (solvent 0.15m-sodium chloride-0.015m-sodium citrate, pH7.2); optical rotation [alpha](max.) 6000 degrees at 278nm; circular dichroism (epsilon(L)-epsilon(R))(max.)=8.241mol(-1) cm(-1) at 260nm. 4. The properties of both fractions were consistent with a double-helical conformation.
...
PMID:Double-helical character of ribonucleic acid from virus-like particles found in Penicillium chrysogenum. 549 67
