Your search keyword '"Fulcher, Timothy K."' showing total 5 results

1. The biophysical and biochemical characterisation of recombinant AP1 and a structural determination of two DNA binding sites, the TRE and CRE

Author

Fulcher, Timothy K.

Subjects

572, DNA binding domain

Abstract

The experimental work of this thesis was carried out on the DNA binding domain of the Fos and Jun proteins to further characterise transcription factor function. The leucine coiled-coil and basic region (the DNA binding domain) were overexpressed and purified to homogeneity using metal chelation affinity. The DNA binding specificity was characterised by gel retardation studies. It was shown that the binding of the wbFos:wbJun heterodimer to an oligodeoxynucleotide containing the AP1 DNA binding site was specific. Reducing conditions (5 mM DTT) significantly improved the specific shift observed. The specific binding was demonstrated by competition assays using oligodeoxynucleotides containing the DNA binding sites of other transcription factors. 53 amino acid residues were helical in the wbFos:wbFos homodimer, 35 in the wbJun:wbJun homodimer and 36 amino acid residues in the wbFos:wbJun heterodimer. In a buffer containing 50 [percent] trifluoroethanol the helical content of the wbFos:wbFos homodimer increased by 20 amino acid residues, consistent with the folding of the basic region. The relative stability of the dimers, estimated from the van't Hoff enthalpy, showed that the heterodimer was significantly more stable than the wbFos:wbFos homodimer. The Gibb's free energy at 310 K for the wbFos:wbFos homodimer was 1.6 kJ/mol, with a measured Kd of 5-10 [mu]M. The wbJun:wbJun homodimer had a Gibb's free energy at 310 K of -5.3 kJ/mol and a about 0.75 [mu]M. The Gibb's free energy at 310 K for the the wbFos:wbJun heterodimer had an enthalpy of unfolding of -171 kJ/mol and a Kdmuch less than 0.10 [mu]M. This suggests that the preferential formation of the heterodimer was through the destabilisation of the wbFos:wbFos homodimer. Two oligodeoxynucleotides containing the AP1 and GCN4 DNA binding site were characterised by high resolution NMR studies. 114 out of 124 protons were assigned for the symmetric tetradecamer d(GCATGACGTCATGC)2 containing the consensus GCN4\DNA binding site. The pseudorotation phase angle of the nucleotides was 144[degrees] for pyrimidines and 162[degrees]for purines. The fraction in the south conformation of nucleotides G1 to G13 was greater than 80[percent]. The pseudorotation phase angle of the 3' terminal nucleotide (C14) was 54[degrees]. The conformation of the base relative to the nucleotide (X), was typical of B-DNA for all the nucleotides G1 through G13. The correlation time for the tetradecamer of 3.5 +/- 0.05 ns was measured from the cytosine (C7 and C10) H5-H6 NOE timecourse. Further characterisation of the symmetric tetradecamer compared the relaxation rate constants for number of the protons at different spectrometer frequencies. The intrinsic relaxation rate constants (p) showed little variation with spectrometer frequency, whilst the initial slopes determined from the inversion recovery timecourse significantly varied with spectrometer frequency. The initial slopes were also very different from the apparent R1 values determined from the inversion recovery timecourse. The recovery timecourses appeared monoexponential. Adenine H2 showed a pronounced lag in the recovery. The effect of a short recycle time diminished the cross peak intensity. However the saturation factors were similar and normalised cross peaks showed little dependence on the recycle time. The protons of the pentadecamer containing the consensus AP1 DNA binding site, 5'd(CAAGTGACTCAGCGC):d(GCGCTGAGTCACTTG), were incompletely assigned. CD demonstrated that the overall conformation of both oligodeoxynucleotides was B- DNA.

Published

1996

2. Molecular phylogenetics of Euploca (Boraginaceae) : homoplasy in many characters, including the C-4 photosynthetic pathway

Author

Frohlich, Michael W., Sage, Rowan F., Craven, Lyn A., Schuster, Sebastian, Gigot, Guillaume, Hilger, Hartmut H., Akhani, Hossein, Mahdavi, Parastoo, Luebert, Federico, Weigend, Maximilian, Thulin, Mats, Doyle, Jeff J., Doyle, Jane L., Vogan, Patrick, Forrest, Alan, Fulcher, Timothy K., Devey, Dion S., Chase, Mark W., Frohlich, Michael W., Sage, Rowan F., Craven, Lyn A., Schuster, Sebastian, Gigot, Guillaume, Hilger, Hartmut H., Akhani, Hossein, Mahdavi, Parastoo, Luebert, Federico, Weigend, Maximilian, Thulin, Mats, Doyle, Jeff J., Doyle, Jane L., Vogan, Patrick, Forrest, Alan, Fulcher, Timothy K., Devey, Dion S., and Chase, Mark W.

Abstract

We present a phylogenetic analysis using plastid (matK, rbcL) and nuclear (nrITS) DNA for diverse Euploca spp. (formerly Heliotropium section Orthostachys) from the worldwide distribution of a genus and including species encompassing the wide physiological and morphological diversity of the genus. Our results indicate that some remarkably complex features arose multiple times in parallel in Euploca, including attributes of its subsections under section Orthostachys, notably plants that, above ground, consist almost entirely of inflorescences. To elucidate in greater detail the distribution of C-4 species in Euploca and Heliotropium s.s., we made > 800 delta C-13 determinations, including some from the traditional genus Tournefortia. We greatly increase the number of proven C-4 species in Euploca, but found none outside Euploca. Of the tested Euploca spp., c. 28% are C-3 or intermediate in carbon fixation pathway. Our phylogenetic results indicate four parallel/convergent acquisitions of C-4 photosynthesis or fewer origins with subsequent loss in some species.

Published

2022

3. Molecular phylogenetics ofEuploca(Boraginaceae): homoplasy in many characters, including the C4 photosynthetic pathway

Author

Frohlich, Michael W, primary, Sage, Rowan F, additional, Craven, Lyn A, additional, Schuster, Sebastian, additional, Gigot, Guillaume, additional, Hilger, Hartmut H, additional, Akhani, Hossein, additional, Mahdavi, Parastoo, additional, Luebert, Federico, additional, Weigend, Maximilian, additional, Thulin, Mats, additional, Doyle, Jeff J, additional, Doyle, Jane L, additional, Vogan, Patrick, additional, Forrest, Alan, additional, Fulcher, Timothy K, additional, Devey, Dion S, additional, and Chase, Mark W, additional

Published

2022

4. Molecular phylogenetics of Euploca (Boraginaceae): homoplasy in many characters, including the C4 photosynthetic pathway.

Author

Frohlich, Michael W, Sage, Rowan F, Craven, Lyn A, Schuster, Sebastian, Gigot, Guillaume, Hilger, Hartmut H, Akhani, Hossein, Mahdavi, Parastoo, Luebert, Federico, Weigend, Maximilian, Thulin, Mats, Doyle, Jeff J, Doyle, Jane L, Vogan, Patrick, Forrest, Alan, Fulcher, Timothy K, Devey, Dion S, and Chase, Mark W

Subjects

MOLECULAR phylogeny, BORAGINACEAE, HOMOPLASY, CARBON fixation, BIOLOGICAL extinction, PLANT species diversity

Abstract

We present a phylogenetic analysis using plastid (matK , rbcL) and nuclear (nrITS) DNA for diverse Euploca spp. (formerly Heliotropium section Orthostachys) from the worldwide distribution of a genus and including species encompassing the wide physiological and morphological diversity of the genus. Our results indicate that some remarkably complex features arose multiple times in parallel in Euploca , including attributes of its subsections under section Orthostachys , notably plants that, above ground, consist almost entirely of inflorescences. To elucidate in greater detail the distribution of C4 species in Euploca and Heliotropium s.s. we made > 800 δ 13C determinations, including some from the traditional genus Tournefortia. We greatly increase the number of proven C4 species in Euploca , but found none outside Euploca. Of the tested Euploca spp. c. 28% are C3 or intermediate in carbon fixation pathway. Our phylogenetic results indicate four parallel/convergent acquisitions of C4 photosynthesis or fewer origins with subsequent loss in some species. [ABSTRACT FROM AUTHOR]

Published

2022

5. Demonstration of the key role played by the PufX protein in the functional and structural organization of native and hybrid bacterial photosynthetic core complexes

Author

Fulcher, Timothy K., Beatty, J. Thomas, and Jones, Michael R.

Subjects

Bacterial proteins -- Research, Bacteria, Photosynthetic -- Research, Biological sciences

Abstract

The PufX protein was studied in an experiment wherein the heterologous expression of a pufX gene from Rhodobacter capsulatus was made in a strain of Rhodobacter sphaeroides that does not have the native pufX gene. Results show that light energy can be efficiently transduced by the R. sphaeroides strain featuring the PufX protein. It was concluded that the protein can play a role in the organization of a bacterial photosystem for the efficient transduction of energy.

Published

1998