Global ETD Search

21	Computational analysis of protein identification using peptide mass fingerprinting approach Ganapathy, Ashwin, January 2004 (has links) Thesis (M.S.)--University of Missouri-Columbia, 2004. / Typescript. Vita. Includes bibliographical references (leaves 63-65). Also available on the Internet.
22	Disassembly Sequence Planning for End-of-Life Products Wang, Hengyu 17 March 2016 (has links) Nowadays, manufactures are under tremendous pressure to dispose product in an environmentally responsible way to pursue a sustainable development. Disassembly operations are required in the product recycling and maintenance period. An optimal disassembly sequence can reduce the disassembly cost and time. This thesis proposes an efficient method for selective disassembly sequence planning (DSP). The proposed method includes two main aspects: product representation and sequence searching. Multi-level constraint matrices based on product’s bill of material (BOM) are constructed. This representation approach can identify the product’s hierarchical structure to reduce the searching size of the sequence plans. Traversal algorithm and genetic algorithm are used to search the desired disassembly sequence. A disassembly feasibility check is integrated in the genetic algorithm to generate a better disassembly sequence with a less searching time. Several case studies are used to verify the proposed algorithms. In addition, destructive disassembly operations are considered to remove those constraints that cannot be removed by the non-destructive disassembly. / May 2016 Disassembly, Sequence, GA
23	UCTD Van Der Merwe, Pieter de Wet 04 1900 (has links) Thesis (MSc)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: Zygophyllum orbiculatum Welwitsch ex Oliv. from Angola and Zygophyllum stapffii Schinz from Namibia were described in the late 1800’s. Recent comparisons of these two species revealed that they were morphologically very similar except that Zygophyllum orbiculatum has unifoliolate leaves and Zygophyllum stapffii has bifoliolate leaves. The similarity of these two species was investigated using nuclear ITS (Internal Transcribed Spacer, i.e. ITS1, 5.8SrDNA, ITS2) region sequence data as phylogenetic markers. Due to almost identical sequences and phylogenetic grouping, it was concluded that they were conspecific. However, the phylogenetic relationships of the major groups within the subfamily Zygophylloideae based on ITS sequences, were unresolved and unsupported, as was found in previous studies using chloroplast gene marker sequences. To resolve the phylogenetic relationships of the major groups within the subfamily Zygophylloideae, a next generation sequencing (NGS) approach was taken. Chloroplasts of taxa representing the major groups within the subfamily were isolated and chloroplast genome sequence data were generated using the Ion Torrent™ sequencer. Additional nuclear ITS cassette data (18SrDNA, ITS1, 5.8SrDNA, ITS2, 26SrDNA) were generated as a by-product and used to produce a large combined aligned sequence matrix for phylogenetic analysis. Model-based phylogenetic programs were able to retrieve strongly supported and resolved phylogenetic relationships of the major groups within Zygophylloideae. Two basal groupings were retrieved in the subfamily. The first grouping consisted of the genera Tetraena, Fagonia and Melocarpum. The second grouping consisted of the monotypic genus Augea and Zygophyllum orbiculatum/stapffii which were embedded within the genus Roepera. Using a gene duplication approach, the chloroplast marker data of genus Zygophyllum sensu stricto placed this genus basal to the Augea, Zygophyllum orbiculatum/stapffii, Roepera clade whilst the nuclear marker data of Zygophyllum sensu stricto, was found in a basal position to the entire subfamily. From this it is concluded that Zygophyllum sensu stricto shows evidence of incomplete lineage sorting. A revised taxonomy for the entire subfamily Zygophylloideae is proposed. / AFRIKAANSE OPSOMMING: Zygophyllum orbiculatum Welwitsch ex Oliv. uit Angola en Zygophyllum stapffii Schinz van Namibië is in die laat 1800's beskryf. Onlangse vergelykings van hierdie twee spesies het getoon dat hulle morfologies baie eners is, behalwe dat Zygophyllum orbiculatum unifoliolate blare besit en dat Zygophyllum stapffii bifoliolate blare besit. Hierdie ooreenkoms is ondersoek, met behulp van die nukleêre “ITS” (Internal Transcribed Spacer d.w.s. ITS1, 5.8SrDNA, ITS2) DNS-strook volgordedata as filogenetiese merkers. As gevolg van feitlik identiese geenopeenvolgings is bevind dat die twee spesies konspesifiek is. Die filogenetiese verwantskappe van die groot binnegroepe van die subfamilie Zygophylloideae, gebaseer op ITS geenopeenvolgings, was egter onopgelos en nie ondersteun nie, net soos in vorige studies waarin chloroplast geenmerkervolgordes gebruik was. Om die filogenetiese verwantskappe van die groot binnegroepe van die subfamilie Zygophylloideae op te los, was ‘n betreklik nuwe DNS volgordebepalingstegniek, naamlik “Next Generation Sequencing” (NGS), gebruik. Chloroplaste van taksa, wat die groot groepe binne-in die subfamilie verteenwoordig, is geïsoleer en chloroplast genoomdata is gegenereer met behulp van die Ion Torrent ™ (NGS) DNS-volgordebepaler. Bykomend was die nukleêre “ITS”-kasset volgordedata (18SrDNS, ITS1, 5.8SrDNS, ITS2, 26SrDNS) ook as 'n by-produk gegenereer en ook gebruik om 'n groot gesamentlike DNS oplyningmatriks vir filogenetiese doeleindes. Model-gebaseerde filogenetiese programme was in staat was om sterk ondersteuning en opgeloste filogenetiese verwantskappe van die groot groepe binne-in Zygophylloideae te ontravel. Die subfamilier toon twee basale groeperinge. Die eerste groepering bestaan uit die genera Tetraena, Fagonia en Melocarpum. Die tweede groepering bestaan uit die monotipiese genus Augea en Zygophyllum orbiculatum/stapffii, wat ingebed is binne-in die genus Roepera. Deur ‘n geendupliseringsbenadering te gebruik op die DNS geenopeenvolgings van die verteenwoordigende takson van Zygophyllum sensu stricto, is bevind dat die chloroplast DNS volgordes hierdie groep basaal aan ‘n Roepera/Augea/Zygophyllum orbiculatum/stapffii klade plaas, terwyl die nukleêre DNS volgordes hierdie groep basaal aan die hele subfamilie Zygophylloideae plaas. Hieruit is die gevolgtrekking gemaak dat Zygophyllum sensu scricto bewyse van onvolledige afstammelingsortering toon. ‘n Gewysigde taksonomie vir die hele subfamilie Zygophylloideae word voorgestel. Zygophyllaceae Genomics Nucleotide sequence
24	Application of 16S rRNA gene sequencing in laboratory diagnosis of mycobacteria other than tuberculosis 金倩儀, Kam, Sin-yee. January 2003 (has links) published_or_final_version / Medical Sciences / Master / Master of Medical Sciences Mycobacteria. Nucleotide sequence.
25	The transposition of Tn21 Ward, E. January 1986 (has links) No description available. 572.8 DNA sequence of Tn21
26	Structural studies on the anti-HIV1-gp 41 antibody, 1583 Beauchamp, Jeremy January 1994 (has links) No description available. 572 Protein sequence
27	LOCALIZATION AND COMPLETE NUCLEOTIDE SEQUENCE OF THE BOVINE PAPILLOMAVIRUS TYPE-2 LATE REGION. POLYPEPTIDE COMPOSITION OF BPV-2. POTTER, HAROLD LEE, JR. January 1984 (has links) This investigation was designed to partially characterize the genome of bovine papillomavirus type-2 (BPV-2). A closely related virus, bovine papillomavirus type-1 (BPV-1), has been extensively studied. Additionally, many members of the human papillomaviruses (HPV) are being investigated in great detail. However, only a few molecular biology studies of BPV-2 have been reported. Therefore, it seemed appropriate to initiate an investigation whose results would provide a good basis for continued studies of BPV-2. A detailed physical map of BPV-2 DNA was prepared by restriction endonuclease digestion of BPV-2 DNA. A comparison between the genomes of BPV-2 and BPV-1 in regard to location and number of cleavage sites of seven enzymes was performed. This comparison revealed similarities between the two genomes and indicated the probable location of the BPV-2 late region by direct extrapolation from the BPV-1 genomic map. This area was completely sequenced by the chemical method and the results confirmed it to indeed be the BPV-2 late region. Comparative analysis between the BPV-2 late region and the BPV-1 late region demonstrated identical genetic organization to exist along with a high degree of nucleotide sequence conservation. Also, the polypeptide composition of BPV-2 was determined and similarities with these and BPV-1 polypeptides were noted. Lastly, a discussion of the BPV-2 polypeptides as potential products of the BPV-2 late region is presented. Nucleotide sequence. Papovaviruses.
28	Chromosome 1 map, sequence and variation Gregory, Simon Gray January 2003 (has links) No description available. 611 Genomic sequence
29	Genetics and biochemistry of potential virulence factors of Campylobacter Grant, Kathleen Ann January 1998 (has links) No description available. 579 Signal sequence
30	Studies on the enzyme DNA-dependent RNA polymerase O'Hanlon, Karen Ann January 1998 (has links) No description available. 572.8 Genotypic sequence analysis

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