Your search keyword '"Konkel, D"' showing total 5 results

1. Isolation, characterization, and purification to homogeneity of an endogenous polypeptide with agonistic action on benzodiazepine receptors.

Author

Guidotti, A, Forchetti, C M, Corda, M G, Konkel, D, Bennett, C D, and Costa, E

Abstract

A brain polypeptide termed diazepam-binding inhibitor (DBI) and thought to be chemically and functionally related to the endogenous effector of the benzodiazepine recognition site was purified to homogeneity. This peptide gives a single band of protein on NaDodSO4 and acidic urea gel electrophoresis. A single UV-absorbing peak was obtained by HPLC using three different columns and solvent systems. DBI has a molecular mass of approximately equal to 11,000 daltons. Carboxyl-terminus analysis shows that tyrosine is the only residue while the amino-terminus was blocked. Cyanogen bromide treatment of DBI yields three polypeptide fragments, and the sequences of two of them have been determined for a total of 45 amino acids. DBI is a competitive inhibitor for the binding of [3H]diazepam, [3H]flunitrazepam, beta-[3H]carboline propyl esters, and 3H-labeled Ro 15-1788. The Ki for [3H]-diazepam and beta-[3H]carboline binding were 4 and 1 microM, respectively. Doses of DBI that inhibited [3H]diazepam binding by greater than 50% fail to change [3H]etorphine, gamma-amino[3H]butyric acid, [3H]-quinuclidinyl benzilate, [3H]dihydroalprenolol, [3H]adenosine, and [3H]imipramine binding tested at their respective Kd values. DBI injected intraventricularly at doses of 5-10 nmol completely reversed the anticonflict action of diazepam on unpunished drinking and, similar to the anxiety-inducing beta-carboline derivative FG 7142 (beta-carboline-3-carboxylic acid methyl ester), facilitated the shock-induced suppression of drinking by lowering the threshold for this response.

Published

1983

2. Isolation, characterization, and purification to homogeneity of a rat brain protein (GABA-modulin).

Author

Guidotti, A, Konkel, D R, Ebstein, B, Corda, M G, Wise, B C, Krutzsch, H, Meek, J L, and Costa, E

Abstract

gamma-Aminobutyric acid (GABA)-modulin is a brain neuropeptide that appears to modulate specific high-affinity (20 nM) GABA recognition sites in brain. When added to crude synaptic membranes this peptide inhibits binding of [3H]GABA to the high-affinity site and prevents facilitation of [3H]diazepam binding elicited by GABA. GABA-modulin has been purified to homogeneity by ammonium sulfate precipitation, gel chromatography, and reverse-phase HPLC. Homogeneity was confirmed by a variety of means, including chromatography under four different HPLC conditions, two different polyacrylamide gel electrophoreses, and end group analysis. Purified GABA-modulin contains approximately 126 amino acids and has a molecular weight of 16,500. The GABA-modulin molecule contains an abundance of hydrophilic basic residues, and neither cysteine nor GABA is present. End group analyses of GABA-modulin showed that histidine is the free COOH terminus and the NH2 terminus is blocked. GABA-modulin specifically blocked both [3H]GABA binding to synaptic membranes (IC50, 0.5 microM) and GABA-stimulated [3H]diazepam binding; the binding of [3H]GABA to low-affinity sites was not affected.

Published

1982

3. An intervening sequence of the mouse β-globin major gene shares extensive homology only with β-globin genes

Author

MILLER, H. I., KONKEL, D. A., and LEDER, P.

Abstract

THE mouse β-globin major (βmaj) gene is interrupted by two intervening sequences of DNA that divide it into three discontinuous segments1–3. The entire gene, including the coding, intervening and untranslated regions, is transcribed into a colinear 15S mRNA precursor4containing a 5′-cap structure and 3′-poly(A) (refs 5–7). Because mature globin mRNA is significantly smaller (10S) and does not contain these intervening sequences, the 15S precursor must be processed. Such processing presumably accounts at least in part for the reduction in sequence length observed between so-called heterogeneous nuclear RNA (Hn RNA) and cytoplasmic RNA8–10. Intervening sequences seem to occur in a variety of genes and organisms1,11–18, but their function and representation in the genome have been unknown.

Published

1978

4. The sequence of the chromosomal mouse β-globin major gene: Homologies in capping, splicing and poly(A) sites

Author

Konkel, D

Published

1978

5. The evolution and sequence comparison of two recently diverged mouse chromosomal β-globin genes

Author

Konkel, D

Published

1979