Your search keyword '"Salmond, B."' showing total 7 results

1. Binding of DNA-bending non-histone proteins destabilizes regular 30-nm chromatin structure.

Author

Bajpai, Gaurav, Jain, Ishutesh, Inamdar, Mandar M., Das, Dibyendu, and Padinhateeri, Ranjith

Subjects

MOLECULAR structure of chromatin, DNA-ligand interactions, NONHISTONE chromosomal proteins, GENETIC code, CHROMOSOMES

Abstract

Why most of the in vivo experiments do not find the 30-nm chromatin fiber, well studied in vitro, is a puzzle. Two basic physical inputs that are crucial for understanding the structure of the 30-nm fiber are the stiffness of the linker DNA and the relative orientations of the DNA entering/exiting nucleosomes. Based on these inputs we simulate chromatin structure and show that the presence of non-histone proteins, which bind and locally bend linker DNA, destroys any regular higher order structures (e.g., zig-zag). Accounting for the bending geometry of proteins like nhp6 and HMG-B, our theory predicts phase-diagram for the chromatin structure as a function of DNA-bending non-histone protein density and mean linker DNA length. For a wide range of linker lengths, we show that as we vary one parameter, that is, the fraction of bent linker region due to non-histone proteins, the steady-state structure will show a transition from zig-zag to an irregular structure—a structure that is reminiscent of what is observed in experiments recently. Our theory can explain the recent in vivo observation of irregular chromatin having co-existence of finite fraction of the next-neighbor (i + 2) and neighbor (i + 1) nucleosome interactions. [ABSTRACT FROM AUTHOR]

Published

2017

2. Cardiovascular Disease and High-Mobility Group Box 1—Is a New Inflammatory Killer in Town?

Author

Cirillo, Plinio, Giallauria, Francesco, Palma, Vito Di, Maresca, Fabio, Ziviello, Francesca, Bevilacqua, Michele, Vigorito, Carlo, and Trimarco, Bruno

Subjects

AUTOIMMUNE diseases, CARDIOVASCULAR diseases, CELLULAR signal transduction, INFLAMMATION, PROTEINS, SEPSIS, TUMORS

Abstract

High-mobility group box 1 (HMGB-1) is a nuclear protein physiologically involved in the maintaining of DNA structure in the nucleus. When tissue damage occurs, necrotic cells as well as inflammatory cells, once activated, release this protein in circulating blood, where it seems to exert a direct proinflammatory action. Thus, HMGB-1 might be involved in the pathophysiology of several diseases, including cardiovascular disease. However, the experimental evidence has not yet clarified its cardiovascular role which is still debated. Specifically, it is still not completely resolved whether HMGB-1 plays a protective or detrimental role on cardiovascular function. In this review, we consider the role of HMGB-1 in pathological conditions and comment on the role of this protein in the cardiovascular disease. [ABSTRACT FROM AUTHOR]

Published

2013

3. Synthesis of a Biotin-Labeled Quorum-Sensing Molecule: Towards a General Method for Target Identification.

Author

Spandl, Richard J., Nicholson, Rebecca L., Marsden, David M., Hodgkinson, James T., Su, Xianbin, Thomas, Gemma L., Salmond, George P., Welch, Martin, and Spring, David R.

Subjects

QUORUM sensing, BIOCHEMICAL genetics, REARRANGEMENTS (Chemistry), ALLENE synthesis, BIOMOLECULE analysis

Abstract

The synthesis of bacterial quorum-sensing regulator N-(3-oxohexanoyl)-l-homoserine lactone (OHHL) and biotin-tagged OHHL is reported. The latter will be applied to developing a general method to address the ‘target identification problem’ in chemical genetics. [ABSTRACT FROM AUTHOR]

Published

2008

4. Solution structure of the HMG protein NHP6A and its interaction with DNA reveals the structural determinants for non-sequence-specific binding.

Author

H. -T., Allain, Frédéric, Yi-Meng Yen, Masse, James R., Schultze, Peter, Dieckmann, Thorsten, Johnson, Reid C., and Feigon, Juli

Subjects

CHROMATIN, CHROMOSOMES, NUCLEOPROTEINS, DNA, METHIONINE, BINDING sites, PROTEINS, NUCLEIC acids

Abstract

NHP6A is a chromatin-associated protein from Saccharomyces cerevisiae belonging to the HMG1/2 family of non-specific DNA binding proteins. NHP6A has only one HMG DNA binding domain and forms relatively stable complexes with DNA. We have determined the solution structure of NHP6A and constructed an NMR-based model structure of the DNA complex. The free NHP6A folds into an L-shaped three a-helix structure, and contains an unstructured 17 amino acid basic tail N-terminal to the HMG box. Intermolecular NOEs assigned between NHP6A and a 15 bp13C,15Nlabeled DNA duplex containing the SRY recognition sequence have positioned the NHP6A HMG domain onto the minor groove of the DNA at a site that is shifted by 1 bp and in reverse orientation from that found in the SRY-DNA complex. In the model structure of the NHP6A-DNA complex, the N-terminal basic tail is wrapped around the major groove in a manner mimicking the C-terminal tail of LEF1. The DNA in the complex is severely distorted and contains two adjacent kinks where side chains of methionine and phenylalanine that are important for bending are inserted. The NHP6A-DNA model structure provides insight into how this class of architectural DNA binding proteins may select preferential binding sites. [ABSTRACT FROM AUTHOR]

Published

1999

5. Tissue specificity of nucleo-cytoplasmic distribution of HMG1 and HMG2 proteins and their probable functions.

Author

Mosevitsky, Mark I., Novitskaya, Vera A., Iogannsen, Michael G., and Zabezhinsky, Mark A.

Subjects

CYTOPLASM, CELL nuclei, LYMPHOID tissue, TESTIS, PROTEINS, IMMUNE system

Abstract

The levels and distribution between nucleus and cytoplasm of HMG1 and HMG2 proteins have been investigated in different tissues of mammals. In lymphoid tissues and testis high amounts of these proteins are present in both nuclei and cytoplasm, while in the hepatic tissues and brain they accumulate in cytoplasm, mainly in the cytosol. In particular, very low amounts, if any, of HMG1 and 2 are present in the nuclei active for DNA replication (rat regenerating liver and primary hepatoma) or transcription (adult liver and brain). Therefore, it appears that HMG1 and 2 are not necessary for these processes. On the other hand, nuclear (chromosomal) HNG1 and 2 arc characteristic for the tissues containing undifferentiated cells: lymphoid tissues, testis, neonatal liver. These proteins are bound to the chromatin regions solubilized early by sonication or DNase action. Comparison of the data obtained for different tissues shows an inverse correlation between the amounts of chromosomal HMG1 and 2, on the one hand, and of histone H1° on the other hand. These results suggest that chromosomal HMG1 and 2 take part in the processes that occur during cell differentiation, while histone H1° is induced to preserve differentiated cells from dedifferentiation. [ABSTRACT FROM AUTHOR]

Published

1989

6. Interactions of the high-mobility-group-like <em>Ceratitis capitata</em> C1 proteins with DNA.

Author

Marquez, Gabriel, Rodriguez, Ana T., Fernandez, Blanca A., and Montero, Francisco

Subjects

CERATITIS, FRUIT flies, DNA, PROTEINS, THERMODYNAMICS, GENES

Abstract

We have studied the interactions of the high-mobility-group-like proteins (C1a1, C1a2 and C1b) from the fruit fly Ceratitis capitata with DNA. Nitrocellulose filter binding assays, thermal denaturation studies and spectrofluorimetry of the complexes revealed the existence of specific and nonspecific interactions. Thermal denaturation curves showed that the three proteins stabilized the DNA, thus suggesting a preferential binding to double-stranded DNA. The calculation of the thermodynamic parameters of the interactions showed that the nonspecific bindings were characterized by Iow association constants (Ka) with values ranging from 2.7 × 104 M-1 to 2.0 × 106 M-1. Also, the cooperativity of these interactions was relatively high (cooperativity factor, w, values ranging over 20-35), and the number of nucleotides involved was low (1-3 base pairs). On the other hand, the existence of specific interactions between C1 proteins and DNA was suggested by two facts: (a) the retention of C. capitata [³H]DNA in nitrocellulose filters was only a Iow percentage of total input DINA and (b) there was a marked size dependence of the binding (25% retention of a 40-kb DNA and only 3% retention with a DNA of 1 kb). The specific bindings had higher Ka values than the nonspecific ones, and they also were cooperative. Some differences were observed between C1b and the C1a proteins about the way they interact with C. capitata DNA. [ABSTRACT FROM AUTHOR]

Published

1987

7. Studies on the stability of the higher-order structure of rat liver chromatin containing high-mobility-group proteins.

Author

Jose, Matilde, Puigdoménech, Pere, and Palau, Jaume

Subjects

LIVER cells, RAT physiology, CELL nuclei, PROTEINS, CELL fractionation

Abstract

The stability of the higher-order structure of chromatin containing high-mobility-group (HMG) proteins has been studied in rat liver nuclei by mild micrococcal nuclease digestion at low temperature and fractionation by sucrose gradient centrifugation. Nuclei preparation and digestion, chromatin solubilization and analysis have been carried out in two ionic conditions, 140 mM and 40 mM monovalent cation concentration, avoiding drastic changes in ionic conditions and temperature during preparation and analysis. During the time course of digestion at 140 mM ionic strength a material stable at 80 S appears, whose DNA is cleaved at values around 12 nucleosomes. The distribution of HMG proteins in different chromatin fractions was analyzed by immunodot using antibodies elicited against proteins HMG-1, HMG-2, and HMG-14 and 17. It appears that these proteins have a distribution distinctly different from the bulk of chromatin. They are never found in the chromatin fragments that keep their internucleosomal interactions, indicating that these proteins tend to accumulate in points where the chromatin has a less stable structure. [ABSTRACT FROM AUTHOR]

Published

1987