Your search keyword '"Richard D, Morgan"' showing total 7 results

1. Unusual Target Site Disruption by the Rare-Cutting HNH Restriction Endonuclease PacI

Author

Siu-Hong Chan, Betty W. Shen, Daniel F. Heiter, Richard D. Morgan, Hua Wang, Shuang-yong Xu, Geoffrey G. Wilson, and Barry L. Stoddard

Subjects

Stereochemistry, Base pair, Cleavage (embryo), Article, Restriction fragment, 03 medical and health sciences, chemistry.chemical_compound, Protein structure, Recognition sequence, Structural Biology, Catalytic Domain, Deoxyribonucleases, Type II Site-Specific, Base Pairing, Molecular Biology, 030304 developmental biology, 0303 health sciences, Base Sequence, biology, 030302 biochemistry & molecular biology, DNA Restriction Enzymes, DNA, Molecular biology, Protein Structure, Tertiary, Restriction site, Restriction enzyme, chemistry, Metals, biology.protein

Abstract

The crystal structure of the rare-cutting HNH restriction endonuclease PacI in complex with its eight-base-pair target recognition sequence 5'-TTAATTAA-3' has been determined to 1.9 A resolution. The enzyme forms an extended homodimer, with each subunit containing two zinc-bound motifs surrounding a betabetaalpha-metal catalytic site. The latter is unusual in that a tyrosine residue likely initiates strand cleavage. PacI dramatically distorts its target sequence from Watson-Crick duplex DNA base pairing, with every base separated from its original partner. Two bases on each strand are unpaired, four are engaged in noncanonical A:A and T:T base pairs, and the remaining two bases are matched with new Watson-Crick partners. This represents a highly unusual DNA binding mechanism for a restriction endonuclease, and implies that initial recognition of the target site might involve significantly different contacts from those visualized in the DNA-bound cocrystal structures.

Published

2010

2. Specificity Changes in the Evolution of Type II Restriction Endonucleases

Author

Hildegard Geyer, Anna Sudina, Elena A. Kubareva, Gerhild Lüder, Vera Pingoud, Rudi Lurz, Alfred Pingoud, Janusz M. Bujnicki, and Richard D. Morgan

Subjects

Genetics, biology, Cell Biology, Biochemistry, DNA sequencing, Restriction fragment, Restriction site, chemistry.chemical_compound, Restriction enzyme, Restriction map, chemistry, Phylogenetics, DNA Mutational Analysis, biology.protein, Molecular Biology, DNA

Abstract

How restriction enzymes with their different specificities and mode of cleavage evolved has been a long standing question in evolutionary biology. We have recently shown that several Type II restriction endonucleases, namely SsoII (downward arrow CCNGG), PspGI (downward arrow CCWGG), Eco-RII (downward arrow CCWGG), NgoMIV (G downward arrow CCGGC), and Cfr10I (R downward arrow CCGGY), which recognize similar DNA sequences (as indicated, where the downward arrows denote cleavage position), share limited sequence similarity over an interrupted stretch of approximately 70 amino acid residues with MboI, a Type II restriction endonuclease from Moraxella bovis (Pingoud, V., Conzelmann, C., Kinzebach, S., Sudina, A., Metelev, V., Kubareva, E., Bujnicki, J. M., Lurz, R., Luder, G., Xu, S. Y., and Pingoud, A. (2003) J. Mol. Biol. 329, 913-929). Nevertheless, MboI has a dissimilar DNA specificity (downward arrow GATC) compared with these enzymes. In this study, we characterize MboI in detail to determine whether it utilizes a mechanism of DNA recognition similar to SsoII, PspGI, EcoRII, NgoMIV, and Cfr10I. Mutational analyses and photocross-linking experiments demonstrate that MboI exploits the stretch of approximately 70 amino acids for DNA recognition and cleavage. It is therefore likely that MboI shares a common evolutionary origin with SsoII, PspGI, EcoRII, NgoMIV, and Cfr10I. This is the first example of a relatively close evolutionary link between Type II restriction enzymes of widely different specificities.

Published

2005

3. DNA Binding and Recognition by the IIs Restriction Endonuclease MboII

Author

Meera Soundararajan, Pauline Heslop, Zhiyuh Chang, Richard D. Morgan, and Bernard A. Connolly

Subjects

chemistry.chemical_classification, biology, Oligonucleotides, DNA, Cell Biology, Biochemistry, FokI, Restriction fragment, chemistry.chemical_compound, Restriction enzyme, Hydrolysis, Monomer, Plasmid, Enzyme, chemistry, biology.protein, Calcium, Magnesium, Deoxyribonucleases, Type II Site-Specific, Dimerization, Molecular Biology, Plasmids

Abstract

The type IIs restriction endonuclease MboII recognizes nonsymmetrical GAAGA sites, cutting 8 (top strand) and 7 (bottom strand) bases to the right. Gel retardation showed that MboII bound specifically to GAAGA sequences, producing two distinct complexes each containing one MboII and one DNA molecule. Interference analysis indicated that the initial species formed, named complex 1, comprised an interaction between the enzyme and the GAAGA target. Complex 2 involved interaction of the protein with both the GAAGA and the cutting sites. Only in the presence of divalent metal ions such as Ca(2+) is the conversion of complex 1 to 2 rapid. Additionally, a very retarded complex was seen with Ca(2+), possibly a (MboII)(2)-(DNA)(2) complex. Plasmids containing a single GAAGA site were hydrolyzed slowly by MboII. Plasmids containing two sites were cut far more rapidly, suggesting that the enzyme requires two recognition sites in the same DNA molecule for efficient hydrolysis. MboII appears to have a mechanism similar to the best characterized type IIs enzyme, FokI. Both enzymes initially bind DNA as monomers, followed by dimerization to give an (enzyme)(2)-(DNA)(2) complex. Dimerization is efficient only when the two target sites are located in the same DNA molecule and requires divalent metal ions.

Published

2002

4. Purification of the Novel Endonuclease, Hpy188I, and Cloning of Its Restriction-Modification Genes Reveal Evidence of Its Horizontal Transfer to the Helicobacter pylori Genome

Author

Richard J. Roberts, Martin J. Blaser, Richard D. Morgan, Shawn Stickel, and Qing Xu

Subjects

Gene Transfer, Horizontal, Sequence analysis, Molecular Sequence Data, Biochemistry, Substrate Specificity, Open Reading Frames, chemistry.chemical_compound, Endonuclease, Recognition sequence, Amino Acid Sequence, Cloning, Molecular, Deoxyribonucleases, Type II Site-Specific, Molecular Biology, Gene, Peptide sequence, DNA Primers, Genetics, Base Sequence, Helicobacter pylori, biology, Cell Biology, Molecular biology, Restriction enzyme, Open reading frame, chemistry, biology.protein, Genome, Bacterial, DNA

Abstract

We have isolated a novel restriction endonuclease, Hpy188I, from Helicobacter pylori strain J188. Hpy188I recognizes the unique sequence, TCNGA, and cleaves the DNA between nucleotides N and G in its recognition sequence to generate a one-base 3' overhang. Cloning and sequence analysis of the Hpy188I modification gene in strain J188 reveal that hpy188IM has a 1299-base pair (bp) open reading frame (ORF) encoding a 432-amino acid product. The predicted protein sequence of M.Hpy188I contains conserved motifs typical of aminomethyltransferases, and Western blotting indicates that it is an N-6 adenine methyltransferase. Downstream of hpy188IM is a 513-bp ORF encoding a 170-amino acid product, that has a 41-bp overlap with hpy188IM. The predicted protein sequence from this ORF matches the amino acid sequence obtained from purified Hpy188I, indicating that it encodes the endonuclease. The Hpy188I R-M genes are not present in either strain of H. pylori that has been completely sequenced but are found in two of 11 H. pylori strains tested. The significantly lower G + C content of the Hpy188I R-M genes implies that they have been introduced relatively recently during the evolution of the H. pylori genome.

Published

2000

5. Characterization and cloning of MwoI (GCN7GC), a new type-II restriction-modification system from Methanobacterium wolfei

Author

John N. Reeve, Keith D. Lunnen, Christopher J. Timan, Geoffrey G. Wilson, Richard D. Morgan, and Joseph A. Krzycki

Subjects

DNA, Bacterial, biology, General Medicine, Euryarchaeota, Molecular cloning, Molecular biology, PBR322, Substrate Specificity, Restriction fragment, Endonuclease, chemistry.chemical_compound, Restriction enzyme, Plasmid, Biochemistry, chemistry, Genes, Bacterial, Escherichia coli, Genetics, biology.protein, Restriction modification system, Cloning, Molecular, Deoxyribonucleases, Type II Site-Specific, DNA, Plasmids

Abstract

R.MwoI, a type-II restriction enzyme with the new specificity 5'-GCN7GC-3', was found in extracts of the thermophilic archaebacterium, Methanobacterium wolfei. R.MwoI cleaves duplex DNA producing fragments with 3-nt, 3'-terminal extensions, thus: GCN5/N2GC. The genes coding for the MwoI restriction and modification enzymes were cloned into Escherichia coli on the plasmid vector pBR322. The clones synthesize a low level of R.MwoI endonuclease. The plasmids display incomplete MwoI-specific modification, suggesting that the clones synthesize a low level of the M.MwoI methyltransferase, too.

Published

1989

6. Analysis of California's State Hospital population by year of first admission

Author

Richard D. Morgan and Anthony Hordern

Subjects

Hospitals, Psychiatric, Gerontology, education.field_of_study, First admission, lcsh:RC435-571, business.industry, Mental hospital, Mental Disorders, Statistics as Topic, Population, Population based, Hospital population, Hospitals, State, California, Hospitalization, Psychiatry and Mental health, Clinical Psychology, lcsh:Psychiatry, Humans, Medicine, business, education, Demography

Abstract

Summary On June 30, 1961, some 48,000 patients were on the active records of California State mental hospitals. This paper describes an analysis of this population based on its distribution by year of first admission, from 1893 through 1961. The approach differs in some respects from the follow-up technique usually employed in the analysis of mental hospital population movement. The data illustrate the fact that a hospital population is composed of two different groups—recent admissions, and the accumulated chronic residuals of admissions in earlier years. One half of the patients on the records of California State mental hospitals were first admitted prior to 1955. When these data were plotted by year of first admission, similarities were noted between the resident population and the population in family care, suggesting that the two statuses have certain resemblances. The population on home leave and the population on unauthorized absence were likewise found to have similar patterns. The ratio of patients in family care to patients resident in the hospitals increases with each succeeding decade of admissions. The paper closes with some suggestions for further research, derived from these preliminary data.

Published

1965

7. Trends in release rates of schizophrenic patients

Author

Richard D. Morgan and Leon J. Epstein

Subjects

Hospitals, Psychiatric, Psychiatry and Mental health, Clinical Psychology, business.industry, Schizophrenia, Humans, Medicine, business, Patient Discharge

Published

1961