495 Matching Results

Search Results

Advanced search parameters have been applied.

Integrating Concepts in Modern Molecular Biology into a High School Biology Curriculum

Description: More so than any other science in the past several decades, Biology has seen an explosion of new information and monumental discoveries that have had a profound impact on much more than the science itself. Much of this has occurred at the molecular level. Many of these modern concepts, ideas, and technologies, as well as their historical context, can be easily understood and appreciated at the high school level. Moreover, it is argued here that the integration of this is critical for making biology relevant as a modern science. A contemporary high school biology curriculum should adequately reflect this newly acquired knowledge and how it has already has already begun to revolutionize medicine, agriculture, and the study of biology itself. This curriculum provides teachers with a detailed framework for integrating molecular biology into a high school biology curriculum. It is not intended to represent the curriculum for an entire academic year, but should be considered a significant component. In addition to examining key concepts and discoveries, it examines modern molecular techniques, their applications, and their relevance to science and beyond. It also provides several recommended labs and helpful protocols.
Access: This item is restricted to UNT Community Members. Login required if off-campus.
Date: August 2003
Creator: Parker, Timothy P.
Partner: UNT Libraries

Posttranslational Modification of Proteins by ADP-ribosylation

Description: This work presents the development of a highly sensitive and selective chemical assay for mono(ADP-ribose) residues covalently bound to proteins in vivo. An extensive review of the literature is presented in the introduction of this work. The physiological.functions of mono(ADP-ribosyl)transferase activities associated with certain bacterial toxins (e.g., diphtheria, cholera and pertussis toxins) are well established. However, the roles of endogenous vertebrate transferases are unknown. The elucidation of the roles of these cellular transferases will likely require identification of the physiologically relevant target proteins. Toward this end, it will also be important to identify the types of (ADP-ribose)-protein linkages present in vivo. ADP-ribosylation reactions catalyzed by the different bacterial and vertebrate transferases are specific for different amino acid acceptors in vitro. However, the vertebrate transferases that have been characterized thus far are NAD:arginine mono(ADP-ribosyl)transferases. The work presented here describes the development of a chemical assay for the detection of in vivo modified, ADP-ribosylated proteins containing N-glycosylic linkages to arginine. The assay was applied to the analysis of ADP-ribose residues in adult rat liver. The strategy employed for detection of protein-bound ADP-ribose residues eliminated potential artifacts arising from trapped nucleotides (or their degradation products), since the acid-insoluble material was completely dissolved in a strongly denaturing solution and freed of non-covalently bound nucleotides prior to chemical release from proteins. Thus, the studies presented here demonstrate the unambiguous detection and quantification of protein-bound ADP-ribose residues in adult rat liver. "Arginine-linked" mono(ADP-ribose) residues (31.8 pmol/mg protein) were present in vivo at a level almost 400-fold higher than poly(ADP-ribose). A minor fraction (23%) of the ADP—ribose residues detected were bound via a second more labile linkage with chemical properties very similar to those described previously for carboxlylate esterlinked ADP-ribose. After fractionation of rat liver proteins by gel filtration HPLC, the major peak of "arginine-linked" ADP-ribose residues ...
Date: December 1984
Creator: Payne, David M. (David Michael)
Partner: UNT Libraries

Pyrimidine nucleotide metabolism in Rhizobium meliloti: purification of aspartate transcarbamoylase from a pyrimidine auxotroph

Description: Rhizobium aspartate transcarbamoylase (ATCase; EC was previously believed to be similar to the Pseudomonas ATCase which has been studied extensively. To facilitate the study of the Rhizobium ATCase a pyrimidine-requiring mutant of R. meliloti was isolated and used in the purification of the enzyme.
Date: December 1990
Creator: Eguae, Samuel Iyamu
Partner: UNT Libraries

Advanced techniques in microbial and molecular biology: laboratory procedures for a graduate level course

Description: Advanced laboratory techniques for Microbial and Molecular Biology at the graduate level are presented in this thesis. The procedures for the laboratory experiments are set forth in detail. This laboratory is conducted as two parts, covering staining procedures, mutagenesis experiments, phenotyping strains, conjugative transfer of plasmids, and other topics.
Date: August 1998
Creator: Kumar, Shalini
Partner: UNT Libraries

Advanced Molecular and Microbial Techniques: a Complete Laboratory Notebook

Description: The purpose of this project is to produce a complete and thorough notebook that may be used to supplement laboratory coursework. Its intent is to be used primarily by the students to aid them in understanding background information and the proper laboratory procedures involved in various types of experiments. The laboratory notebook is a summation of all the experiments and procedures used in the six-credit hour Advanced Microbial and Molecular Biology (BIOL 5160) course offered during the summer semester at the University of North Texas. This class is a team taught effort by Professors O'Donovan and Kunz. The course is constructed as an intensive practice exercise to teach the student about gene mutations, biosynthetic pathways, preparation and analysis of plasmid DNA, and many other topics included in the notebook.
Date: May 1998
Creator: Brito-Rodriquez, Carmen Lydia
Partner: UNT Libraries

Biochemical Systematics of the Genus Sophora

Description: Three unusual amino acids, y-amino-n-butyric acid, pipecolic acid, and 4-hydroxypipecolic acid, and an uncommon dipeptide, y-glutamyltyrosine, have been isolated and characterized from the seeds of members of the genus Sophora. Structural proof of these compounds was carried out by paper chromatography, thin-layer chromatography, column chromatography on amino acid analyzer, infrared, nuclear magnetic resonance, mass spectrometry, and C, H, N analysis. The presence and absence of these compounds was used as a criterion for the classification of 23 species of the genus Sophora. A phylogenetic classification which seems to follow the morphological taxonomy of this genus was carried out on the basis of seeds that contained pipecolic acid, those which did not contain pipecolic acid, and plants which contained both pipecolic acid and 4-hydroxypipecolic acids. Another chemical classification was also introduced based on the presence and absence of y-amino-n-butyric acid and y-glutamyltyrosine.
Date: December 1973
Creator: Izaddoost, Mohamed
Partner: UNT Libraries

Computational Biology and High Performance Computing 2000

Description: The pace of extraordinary advances in molecular biology has accelerated in the past decade due in large part to discoveries coming from genome projects on human and model organisms. The advances in the genome project so far, happening well ahead of schedule and under budget, have exceeded any dreams by its protagonists, let alone formal expectations. Biologists expect the next phase of the genome project to be even more startling in terms of dramatic breakthroughs in our understanding of human biology, the biology of health and of disease. Only today can biologists begin to envision the necessary experimental, computational and theoretical steps necessary to exploit genome sequence information for its medical impact, its contribution to biotechnology and economic competitiveness, and its ultimate contribution to environmental quality. High performance computing has become one of the critical enabling technologies, which will help to translate this vision of future advances in biology into reality. Biologists are increasingly becoming aware of the potential of high performance computing. The goal of this tutorial is to introduce the exciting new developments in computational biology and genomics to the high performance computing community.
Date: October 19, 2000
Creator: Simon, Horst D.; Zorn, Manfred D.; Spengler, Sylvia J.; Shoichet, Brian K.; Stewart, Craig; Dubchak, Inna L. et al.
Partner: UNT Libraries Government Documents Department

2003 Archaea: Ecology, Metabolism and Molecular Biology

Description: The Gordon Research Conference (GRC) on 2003 Archaea: Ecology, Metabolism and Molecular Biology was held at Proctor Academy, Andover, NH from August 3-8, 2003. The Conference was well-attended with 150 participants (attendees list attached). The attendees represented the spectrum of endeavor in this field coming from academia, industry, and government laboratories, both U.S. and foreign scientists, senior researchers, young investigators, and students. In designing the formal speakers program, emphasis was placed on current unpublished research and discussion of the future target areas in this field. There was a conscious effort to stimulate lively discussion about the key issues in the field today. Time for formal presentations was limited in the interest of group discussions. In order that more scientists could communicate their most recent results, poster presentation time was scheduled. Attached is a copy of the formal schedule and speaker program and the poster program. In addition to these formal interactions, ''free time'' was scheduled to allow informal discussions. Such discussions are fostering new collaborations and joint efforts in the field. I want to personally thank you for your support of this Conference. As you know, in the interest of promoting the presentation of unpublished and frontier-breaking research, Gordon Research Conferences does not permit publication of meeting proceedings. If you wish any further details, please feel free to contact me. Thank you, Dr. Richard F. Shand, 2003 Conference Chair.
Date: September 21, 2004
Creator: Shand, Richard F.
Partner: UNT Libraries Government Documents Department

2004 Reversible Associations in Structure & Molecular Biology

Description: The Gordon Research Conference (GRC) on 2004 Gordon Research Conference on Reversible Associations in Structure & Molecular Biology was held at Four Points Sheraton, CA, 1/25-30/2004. The Conference was well attended with 82 participants (attendees list attached). The attendees represented the spectrum of endeavor in this field coming from academia, industry, and government laboratories, both U.S. and foreign scientists, senior researchers, young investigators, and students.
Date: March 23, 2005
Creator: Gray, Edward Eisenstein Nancy Ryan
Partner: UNT Libraries Government Documents Department

Synthesis of Polycyclic Natural Products

Description: With the continuous advancements in molecular biology and modern medicine, organic synthesis has become vital to the support and extension of those discoveries. The isolations of new natural products allow for the understanding of their biological activities and therapeutic value. Organic synthesis is employed to aid in the determination of the relationship between structure and function of these natural products. The development of synthetic methodologies in the course of total syntheses is imperative for the expansion of this highly interdisciplinary field of science. In addition to the practical applications of total syntheses, the structural complexity of natural products represents a worthwhile challenge in itself. The pursuit of concise and efficient syntheses of complex molecules is both gratifying and enjoyable.
Date: May 31, 2003
Creator: Nguyen, Tuan Hoang
Partner: UNT Libraries Government Documents Department

œNADPH: Protochlorophyllide Oxidoreductase-Structure, Catalytic Function, and Role in Prolamellar Body Formation and Morphogenesis

Description: The biosynthesis of chlorophyll is a critical biochemical step in the development of photosynthetic vascular plants and green algae. From photosynthetic bacteria (cyanobacteria) to algae, non-vascular plants, gymnosperms and vascular plants, mechanisms have evolved for protochlorophyllide reduction a key step in chlorophyll synthesis. Protochlorophyllide reduction is carried out by both a light-dependent (POR) and light-independent (LIPOR) mechanisms. NADPH: protochlorophyllide oxidoreductase (EC, abbreviated POR) catalyzes the light-dependent reduction of protochlorophyllide (PChlide) to chlorophyllide (Chlide). In contrast, a light-independent protochlorophyllide reductase (LIPOR) involves three plastid gene products (chlL, chlN, and chlB) and several nuclear factors. Our work focused on characterization of both the POR and LIPOR catalyzed processes.
Date: February 1, 2013
Creator: Timko, Michael P.
Partner: UNT Libraries Government Documents Department

Toxin studies using an integrated biophysical and structural biology approach.

Description: Clostridial neurotoxins, such as botulinum and tetanus, are generally thought to invade neural cells through a process of high affinity binding mediated by gangliosides, internalization via endosome formation, and subsequent membrane penetration of the catalytic domain activated by a pH drop in the endosome. This surface recognition and internalization process is still not well understood with regard to what specific membrane features the toxins target, the intermolecular interactions between bound toxins, and the molecular conformational changes that occur as a result of pH lowering. In an effort to elucidate the mechanism of tetanus toxin binding and permeation through the membrane a simple yet representative model was developed that consisted of the ganglioside G{sub tlb} incorporated in a bilayer of cholesterol and DPPC (dipalmitoylphosphatidyl choline). The bilayers were stable over time yet sensitive towards the binding and activity of whole toxin. A liposome leakage study at constant pH as well as with a pH gradient, to mimic the processes of the endosome, was used to elucidate the effect of pH on the toxin's membrane binding and permeation capability. Topographic imaging of the membrane surface, via in situ tapping mode AFM, provided nanoscale characterization of the toxin's binding location and pore formation activity.
Date: March 1, 2005
Creator: Last, Julie A.; Schroeder, Anne E.; Slade, Andrea Lynn; Sasaki, Darryl Yoshio; Yip, Christopher M. (University of Toronto, Toronto, Ontario, Canada) & Schoeniger, Joseph S. (Sandia National Laboratories, Livermore, CA)
Partner: UNT Libraries Government Documents Department

Application of multidisciplinary analysis to gene expression.

Description: Molecular analysis of cancer, at the genomic level, could lead to individualized patient diagnostics and treatments. The developments to follow will signal a significant paradigm shift in the clinical management of human cancer. Despite our initial hopes, however, it seems that simple analysis of microarray data cannot elucidate clinically significant gene functions and mechanisms. Extracting biological information from microarray data requires a complicated path involving multidisciplinary teams of biomedical researchers, computer scientists, mathematicians, statisticians, and computational linguists. The integration of the diverse outputs of each team is the limiting factor in the progress to discover candidate genes and pathways associated with the molecular biology of cancer. Specifically, one must deal with sets of significant genes identified by each method and extract whatever useful information may be found by comparing these different gene lists. Here we present our experience with such comparisons, and share methods developed in the analysis of an infant leukemia cohort studied on Affymetrix HG-U95A arrays. In particular, spatial gene clustering, hyper-dimensional projections, and computational linguistics were used to compare different gene lists. In spatial gene clustering, different gene lists are grouped together and visualized on a three-dimensional expression map, where genes with similar expressions are co-located. In another approach, projections from gene expression space onto a sphere clarify how groups of genes can jointly have more predictive power than groups of individually selected genes. Finally, online literature is automatically rearranged to present information about genes common to multiple groups, or to contrast the differences between the lists. The combination of these methods has improved our understanding of infant leukemia. While the complicated reality of the biology dashed our initial, optimistic hopes for simple answers from microarrays, we have made progress by combining very different analytic approaches.
Date: January 1, 2004
Creator: Wang, Xuefel (University of New Mexico, Albuquerque, NM); Kang, Huining (University of New Mexico, Albuquerque, NM); Fields, Chris (New Mexico State University, Las Cruces, NM); Cowie, Jim R. (New Mexico State University, Las Cruces, NM); Davidson, George S.; Haaland, David Michael et al.
Partner: UNT Libraries Government Documents Department


Description: With the ever-increasing genomic information pouring into the databases researchers start to look for pattern in genomes. Key questions are the identification of function. In the past function was mainly understood to be assigned to a single gene isolated from other cellular components or mechanisms. Sequence comparison fo single genes and their products (proteins) as well as of intergenic space are a consequence of a well established one-gene one-function interpretation. prediction of function solely by sequence similarity searches are powerful techniques that initiated the advent of bioinformatics and computational biology. Seminal work on sequence alignment by Temple Smith and Michael Waterman [33] and sequence searches with the BLAST algorithm by Altschul et al. [2] provide essential methods for sequence based determination of function. Similar outstanding contributions to determination of function have been archived in the area of structure prediction, molecular modeling and molecular dynamics. Techniques covering ab initio and homology modeling up to biophysical interpretation of long-run molecular dynamics simulations are mentioned ehre. With the ever-increasing number of information of different genetic/genomic origin, new aspect are looked for that deviate from the single gene at a time method. Especially with the identification of surprisingly few human genes the emerging perception in the scientific community that the concept of function has to be extended to include other sequence based as well as non-sequenced based information. A schema of determination of function by different concepts is shown in Figure 1. The tutorial is comprised of the following sections: The first two sections discuss the differences between genomic and non-genomic based context information, section three will cover combined methods. Finally, section four lsits web-resources and databases. All presented approaches extensively employ comparative methods.
Date: January 1, 2001
Creator: Forst, C. (Christian)
Partner: UNT Libraries Government Documents Department

2006 Reversible Associations in Structural and Molecular Biology Conference-January 15-20, 2006

Description: Many biological processes are carried out through the formation of macromolecular complexes, ranging from the simplest conformational organization to the most sophisticated interactions among complexes themselves. Reversible associations generate specific local conformations, active site configurations, and subunit--subunit interfaces, and encompass larger scale quaternary rearrangements and dissociation events. Assembled complexes exhibit properties different from those of component parts, such that 'the whole is greater than the sum of the parts', resulting in biological functioning of the assembly. This Gordon Research Conference brings together researchers from what may appear to be disparate fields with the common focus of applying quantitative kinetic and thermodynamic analysis to reversible macromolecular interactions. This conference will include the following session topics: (1) Protein design in evolution and recognition; (2) Emerging technologies; (3) Single molecule mechanics; (4) Nucleic acid/protein recognition; (5) Lipid/protein recognition; (6) Protein switches and networks; (7) Advances in classic technologies; (8) Ligand/macromolecule complexes and drug design; and (9) Selected student oral presentations; all from the perspective of reversibly associating systems. A wide array of techniques are typically covered, from single molecule to computational methods, chromatography and analytical ultracentrifugation, spectroscopic dynamics and titration calorimetry. The quantitative analysis of assembled complexes demonstrates that these biologically important functions depend not just upon a single part of the molecule, but on the coordination brought about by the ensemble of interactions. Applications from graduate students and young postdoctoral scientists are welcomed. A selection of short talks will be invited from students presenting posters.
Date: April 10, 2007
Creator: Gray, Gary Ackers Nancy Ryan
Partner: UNT Libraries Government Documents Department

2008 Co2 Assimilation in Plants: Genome to Biome Gordon Research Conference - August 17-22

Description: Formerly entitled 'CO2 Fixation and Metabolism in Green Plants', this long-standing Gordon Research Conference has been held on a triennial basis since 1976. In 1990 the participants decided to alternate between sites in the U.S. and outside the U.S. The 2005 conference was held in Europe at the Centre Paul Langevin in Aussois, France, so the 2008 conference returns to a U.S. site - the University of New England in Biddeford, Maine. The 2008 conference covers basic plant research related to photosynthesis and the subsequent regulation and engineering of carbon assimilation. Approaches that range from post-genomic technologies and systems biology, through to fundamental biochemistry, physiology and molecular biology are integrated within ecological and agronomic contexts. As such, the meeting provides the rare opportunity of a single venue for discussing all aspects of the 'carbon-side' of photosynthesis - from genome to biome. The 2008 conference will include an emphasis on the central role of carbon assimilation by plants for developing new sources of bioenergy and for achieving a carbon-neutral planet. A special characteristic of this conference is its 'intimacy' with approximately 110 conferees, ranging from beginning graduate students and postdoctoral associates to leading senior plant scientists, engaged in open and forward-thinking discussions in an informal, friendly setting. With extended time devoted to discussion, and the encouragement to challenge dogma, it is unlike other meetings in the U.S. or abroad. Another novel feature of the conference is a session devoted to the latest 'hot off the press' findings by both established and early career scientists, picked from the abstracts. Together with an expanded poster discussion in the evening sessions, this session provides an opportunity for early career scientists to present interesting new data and to 'test drive' hypotheses in a collegial atmosphere.
Date: August 12, 2009
Creator: Maroney, James V.
Partner: UNT Libraries Government Documents Department

Partial Support for U.S. Participants in the International Marine Biotechnology Conference 2005, in Newfoundland, Canada, June 7-12, 2005

Description: This proposal requests inter-agency support for U.S. scientists to attend the IMBC2005. This meeting is the premier international Marine Biotechnology meeting and emphasizes the use of molecular approaches in studying the protection and enhancement of global marine resources. The scientific programs of IMBC2005 include Marine Microbiology, Genomics and Proteomics, Extremophiles, Bioremediation, Cell and Molecular Biology, Bioactives, Transgenics, Aquaculture, Seafood Safety, and Biodiversity. For more information, please refer to http://www.imbc2005.org/welcome_e.html. The objectives of this proposal are to: 1. Facilitate attendance by a broad range of U.S. scientists, technologists, and students at the MBC2005 2. Ensure that U.S. scientists are exposed to the latest global advances in Marine Biotechnology 3. Encourage collaboration between U.S. and other scientists in the important and rapidly developing field of Marine Biotechnology.
Date: September 30, 2006
Creator: Chen, Feng
Partner: UNT Libraries Government Documents Department