The development of novel STR miniplex primer sets for the analysis of degraded and compromised DNA samples

Chung, Denise T.

January 2004

Thesis (Ph.D.)--Ohio University, August, 2004. / Title from PDF t.p. Includes bibliographical references (p. 185-196)

Social mating system and realized reproductive success in house wrens (Troglodytes aedon) evidence from DNA fingerprinting /

Soukup, Sheryl Swartz. Thompson, Charles F.

January 1996

Thesis (Ph. D.)--Illinois State University, 1996. / Title from title page screen, viewed May 25, 2006. Dissertation Committee: Charles F. Thompson, Angelo P. Capparella (co-chairs), Steven A. Juliano, Anthony J. Otsuka, Scott K. Sakaluk, David F. Weber. Includes bibliographical references (leaves 78-84) and abstract. Also available in print.

Biohydrogen production under various operational conditions /

Li, Chenlin.

January 2006

Thesis (Ph. D.)--University of Hong Kong, 2007. / Also available online.

Comparisons of levels of genetic diversity among Streptomyces scabies isolates of South Africa using various DNA techniques

Lynch, Alisson

12 1900

Thesis (MSc)--University of Stellenbosch, 2000. / ENGLISH ABSTRACT: Streptomyces spp. are responsible for a large proportion of the world-wide quality deterioration of potatoes causing a potato tuber disease called cornmon scab. Determining the genetic diversity of the Streptomyces spp., especially the main pathogen, S. scabies, has been a prerequisite for the ultimate control of common scab. Techniques responsible for the classification and determination of genetic diversity have improved with advances in DNA technology. Analysis of South African (S.A.) S. scabies isolates has been focusing on the organisms' morphology, physiology, pathogenicity and melanin production, but the classification of S. scabies using DNA techniques has not yet been explored. In this study various DNA techniques were screened for optimal use in determining the genetic diversity within and among isolates of S. scabies. Bacteria had been sampled from the main potato producing regions in S.A. and a few other regions. The techniques explored included RAPDs, AFLPs, RAMS, Rep-PCR, 16S rDNA sequencing and ITS analysis. The first three techniques had to be abandoned due to non-reproducibility between the same isolate extracted on separate occasions and ITS analysis was abandoned due to sequencing difficulties. Of the three Rep-PCR techniques tested (BOX, ERIC and REP), BOX was selected because it produced the clearest and most reproducible results. BOX-PCR and 16S rDNA sequencing were therefore ultimately selected as the methods to analyse the genetic diversity of the S. scabies isolates. Information concerning the pathogenicity of the isolates was supplied by the Vegetable and Ornamental Plant Research Institute of the Agricultural Research Council (VOPI, ARC, Roodeplaat). A brief analysis of the pathogenicity prediction of the isolates in this study was explored with the PCR technique. Presence of the necJ gene was previously shown to be an indication of the pathogenicity within the Streptomyces spp. group. PCR analysis is based on the amplification of a O.72kb fragment (necl) in pathogenic isolates which was absent in non-pathogenic isolates. However, in this study the test for pathogenicity lacked specificity and sensitivity and some of the problems experienced included non-reproducibility between PCR reactions and the presence of the pathogenic fragment in the nonpathogenic isolates (as designated by VOPI, ARC). These observations led to the conclusion that this technique is not an ultimate test for pathogenicity of S. scabies isolates in a South African context. The genetic distances and similarity matrices of the Rep-PCR results were calculated using Nei's genetic distance calculation (Nei M, 1975). Clusters from these matrices were constructed using the unweighted pair group average (UPGMA) with the PAUP4 package. The clusters for the 16S rDNA sequences were formed with the Neighbor Joining (NJ) method and the PAUP4 package. The NJ trees do not take small sequencing differences into account, therefore a Parsimony Network had to be constructed. The trees obtained with the 16S rDNA sequencing techniques grouped most S. scabies isolates into one major group with a 100% bootstrap robustness of this group. More genetic diversity was illustrated by the BOX-PCR technique and the isolates were generally grouped according to their different regions of origin. However, the bootstrap values were low, indicating a lack of robustness regarding the BOXPCR clustering. This was not unexpected as the number of data points employed in the BOX technique is very limited. Both techniques revealed unexpected grouping of a few isolates. Their isolated positions could be attributed to possible misclassification or to the fact that they could be genetically different S. scabies isolates. Streptomyces spp. (other than S. scabies) displayed enough differences to place them in their own distinct groups using both techniques. Comparison of the cluster results obtained in this study did not correlate to the data supplied by the VOPI, ARC (morphology, physiology, pathogenicity and melanin production) which revealed differences between the S. scabies isolates within their respective regions. The lack of diversity displayed by the 16S rDNA technique can be attributed to the fact that only a limited section of the genome is involved making it inappropriate for intra-species genetic diversity analysis. The BOX technique takes various loci within the genome but is still not ideal for a thorough genetic diversity analysis. This study represents the first attempt to determine the genetic diversity of S. scabies in S.A. on DNA level. / AFRIKAANSE OPSOMMING: Streptomyces spp. is verantwoordelik vir 'n _groot deel van die wereld afname in aartappel kwaliteit as gevolg van die aartappelknol siekte bruinskurf. Die bepaling van die genetiese diversiteit tussen die Streptomyces spp., varal die hoof patogeen in die groep, S. scabies, is 'n vooreiste vir die uiteindelike beheer van bruinskurf. Tegnieke verantwoordelik vir die klassifikasie en bepaling van genetiese diversiteit het verbeter met vooruitgang in DNA tegnologie. Analise van Suid Afrika (S.A.) se S. scabies isolate konsentreer op die organisme se morfologie, fisiologie, patogenisiteit en malanien produksie, maar die klassifikasie van S. scabies met die behulp van DNA tegnieke is nog nie uitgevoer me. In hierdie studie is verskeie DNA tegnieke ondersoek vir optimale bepaling van genetiese diversiteit binne en tussen S. scabies isolate van S.A Bakteriee is verkry van die hoof aartappel-produserende areas in S.A. en ook van 'n paar ander areas. Die tegnieke wat in die studie gebruik is, het RAPDs, AFLPs, Rep-PKR, 16S rDNA volgordebepaling en ITS analise ingesluit. Die eersgenoemde drie tegnieke is uitgesluit as gevolg van nie-herhalende resultate tussen dieselfde isolaat geisoleer op verskillende geleenthede. ITS analise is uitgesluit as gevolg van probleme met volgordebepaling. Rep- PKR en 16S rDNA volgordebepaling is uiteindelik gekies as die mees geskikte metodes vir die analise van genetiese diversiteit tussen S. scabies isolate in hierdie studie omdat albei skynbare herhaalbare resultate gelewer het. Inligting met betrekking tot die patogenisiteit van die isolate is voorsien deur die Groente en Sierplant Instituut van die Landbou Navorsinsraad (YOPI, LNR). 'n Vinnige analise van die patogenisiteits voorspelling van die isolate is uitgevoer met die PKR tegniek. Dit is voorheen aangetoon dat die teenwoordiheid van die necJ geen dui op die patogenisiteit in die Streptomyces sp _groep. PKR analise het 'n O.72kb fragment (necl) in patogeniese isolate geamplifiseer wat nie teenwoordig was in niepatogeniese isolate nie. Hierdie toets vir patogenisiteit soos gebruik in hierdie studie was egter onspesifiek en onsensitief en sommige van die probleme wat ondervind is sluit in nie-herhaalbaarheid tussen PKR reaksies en die teenwoordigheid van die patogeniese fragment in die nie-patogeniese isolaat (soos beskryf deur YOPI, LNR). Uit hierdie waarnemings word afgelei dat die tegniek nie 'n geskikte toets vir patogenisiteit van S. scabies isolate in 'n S.A konteks is nie. Die genetiese afstande en ooreenkomstige matrikse van die Rep-PCR resultate is bereken met die genetiese afstand bepaling van Nei (Nei M, 1975). Groepe is gevorm met die "unweighted pair group average" (UPGMA) en PAUP4 pakket. Die "Neighbor Joining" (NJ) groepe is gevorm met die 16S rDNA volgordebepaling data mbv die PAUP4 pakket. Die NJ groepering neem nie klein volgorde verskille in ag nie en gevolglik moes'n "Parsimony Network" opgestel word. Die groepering met die 16S rDNA volgordebepaling het meeste van die isolate in een hoof groep geplaas met 'n 100% "bootstrap" waarde. Meer genetiese diversiteit is met die BOX-PCR tegniek gevind en isolate was oor die algemeen gegroepeer vol gens van hul oorsprong. Die "bootstrap" waardes vir die BOX tegniek was baie laag. Dit was nie onverwags nie, want die hoeveelheid data punte was beperk met die BOX tegniek. Albei tegnieke het 'n aantal afwykende isolate vertoon. Hul ge-isoleerde posisies kan toegeskryf word aan moontlike misklassifikasies van die isolaat. Die moontlikheid dat daar wel genetiese verkille tussen die isolate is, kan egter nie uitgesluit word nie. Streptomyces spp. (uitgesluit S. scabies) het genoeg variasie vertoon om hulle in hul eie groepe met die gebruik van beide tegnieke te plaas. Vergelyking tussen die groepe in die studie stem nie ooreen met die data verkry vanaf YOPl, LNR (morfologie, fisiologie, patogenesiteit en melanien produksie) nie wat verskille tussen S. scabies isolate binne 'n sekere gebied vertoon. Die gebrek aan diversiteit soos vertoon deur die 16S rDNA tegniek kan toegeskryf word aan die feit dat slegs 'n beperkte gedeelte van die genoom ondersoek word, wat dit ongeskik vir intra-species genetiese diversiteit analise maak. Die BOX tegniek neem verskeie loci in die genoom in ag, maar is steeds nie ideaal vir deeglike genetiese diversiteit analise nie. Hierdie studie verteenwoordig die eerste poging om die genetiese diversiteit van S. scabies in S.A. op DNA vlak te bepaal.

Streptomyces scabies -- Genetics

DNA fingerprinting

Potatoes -- Diseases and pests

A study to evaluate variable number tandem repeat DNA polymorphisms in disputed paternity testing

Schlaphoff, Theresa Elizabeth-Anne

January 1993

Thesis (MDip (Medical Technology))--Cape Technikon, 1993 / The use of genetic marker testing to resolve cases of disputed paternity, is well established. The number and range of systems used depends on the expertise of the laboratory, and for this reason various laboratories offer different systems. Standard testing includes tests in the following genetic marker systems: human leukocyte antigen (tissue) typing; red cell blood groups; and red cell enzyme and serum protein testing. The Provincial Laboratory for Tissue Immunology currently offers a range of 16 genetic marker systems capable of excluding >99% of falsely accused men. Following the discovery DNA polymorphisms, particularly VNTR DNA polymorphisms, and the commercial availability of VNTR DNA probes, PLTI decided to offer this service to our clients. This study was the initial phase in the establishment of a VNTR DNA typing laboratory and covered the determination of inter-and intra-gel accuracy and precision, selection of restriction enzyme/probe combination, and evaluation and comparison of the results of 100 disputed paternity cases tested using both standard and VNTR DNA typing. Of the 100 cases tested, in 33 cases, the putative father was excluded using standard testing. These exclusions were confirmed using VNTR DNA typing, and, furthermore, an additional two exclusions of paternity were shown using only VNTR DNA typing. In another two cases of disputed paternity, the exclusions obtained using standard tests required further confirmation. VNTR DNA typing convincingly excluded both falsely accused putative fathers. The VNTR DNA typing laboratory now functions as an integral part of the disputed paternity service. Due to the cost and time involved in VNTR DNA typing it is reserved at this stage for: those cases which require further confirmation of the results of standard testing; when the probability of paternity is low (<99.7%); or when a specific request is made.

DNA fingerprinting

Forensic genetics -- Technique

Paternity testing -- Technique

The evaluation of Y-STR loci for use in forensics

Ehrenreich, Liezle Suzette

January 2005

Magister Scientiae - MSc / The aim of this study was to investigate the forensic usefulness of various Y-chromosome short tandem repeat loci among South African sub-populations. Three different sets of Y-chromosome short tandem repeat loci were chosen for investigation. / South Africa

Forensic genetics

Y chromosome

DNA fingerprinting

DNA

Synthesis

Chromosome polymorphism

Determining gene flow, linkage and parental contribution in Pinus elliottii X Pinus caribaea pine hybrids

Doyle, Jacqueline Heidi

09 February 2006

Please read the abstract in the section 00front of this document / Dissertation (MSc (Genetics))--University of Pretoria, 2007. / Genetics / unrestricted

Pine hybridization dna fingerprinting

UCTD

Applications of DNA Technology to Wildlife Forensic Science

Wilson, Paul J.

09 1900

Molecular genetic protocols have been developed to provide evidence in infractions of wildlife statutes in Canada. We have utilized DNA marker systems to address specific questions in wildlife investigations based on their different levels of genetic variability. Multilocus DNA fingerprinting has been applied to poaching infractions to determine if tissue samples associated with a suspected poacher originated from the remains of an animal at a known illegal kill site. The hypervariability of the variable number of tandem repeat (VNTR) loci detected by multilocus DNA fingerprinting allows the individual identification of samples. Highly repetitive satellite DNA markers have been applied to determining the species of origin of unknown tissue samples based on their species-specificity. Satellite DNA profiling have provided evidence in illegal commercialization investigations involving species such as moose (Alcesalces) and white-tailed deer (Odocoileus virginianus), including the illegal addition of game meat in processed meat products. A sex-specific DNA locus, the sex-determining region on the Y-chromosome (Sry), has been utilized to determine the sex of cervid samples that have had gender-specific physical characteristics, antlers and genitalia removed in violation of the validation tag system. Finally, a polymerase chain reaction (PCR) based protocol has been established for the species identification of samples that produce minute amounts of DNA or degraded DNA. Cytochrome b sequences demonstrate low intra-specific levels of sequence divergence and higher inter-specific levels of sequence divergence. Cytochrome b sequence analysis has been applied to fish, game and domestic species commonly involved in wildlife investigations and to the identification o fa number of species, mostly seal species, involved in the trade of animal parts. / Thesis / Master of Science (MSc)

Wildlife Forensic Science

Molecular Genetic Protocols

Canada

Poaching

DNA fingerprinting

Determination of linkage and degree of relatedness in a captive population of American kestrels using DNA fingerprinting

Cunningham, Heather V.

January 1995

No description available.

DNA fingerprinting.

Captive wild birds.

American kestrel -- Genetics.

HYPOTHESIS TESTING WITH THE SIMILARITY INDEX

LEONARD, ANTHONY CHARLES

03 December 2001

No description available.

similarity index

band sharing

DNA fingerprinting

sampline variance

population genetics