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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
121

Analysis of the response of nucleotide excision repair genes in Dictyostelium discoideum /

Yu, Sung-Lim, January 1997 (has links)
Thesis (Ph. D.)--University of Missouri-Columbia, 1997. / Typescript. Vita. Includes bibliographical references (leaves 109-130). Also available on the Internet.
122

Analysis of the response of nucleotide excision repair genes in Dictyostelium discoideum

Yu, Sung-Lim, January 1997 (has links)
Thesis (Ph. D.)--University of Missouri-Columbia, 1997. / Typescript. Vita. Includes bibliographical references (leaves 109-130). Also available on the Internet.
123

Role of the long terminal repeat in transcriptional regulation of rous sarcoma virus gene expression

Cleavinger, Peter Jay. January 1996 (has links)
Thesis (Ph. D.)--University of Missouri--Columbia, 1996. / Typescript. Vita. Includes bibliographical references (leaves : 131-150). Also available on the Internet.
124

Peptide nucleic acid (PNA) hybridization to nucleic acid targets

Nulf, Christopher J. January 2004 (has links) (PDF)
Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2004. / Vita. Bibliography: References located at the end of each chapter.
125

Transcriptional regulation of neural crest-derived pharyngeal arch artery development

Ivey, Kathryn Nicole. January 2004 (has links) (PDF)
Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2003. / Vita. Bibliography: References located at the end of each chapter.
126

Smooth muscle cells and myofibroblasts employ distinct transcriptional mechanisms for smooth muscle [alpha]-Actin expression

Gan, Qiong. January 2007 (has links)
Thesis (Ph. D.)--University of Virginia, 2007. / Title from title page. [alpha] in title is the Greek character. Includes bibliographical references. Also available online through Digital Dissertations.
127

The pumilio proteins PUF-5 and PUF-6/7/10 are necessary for repression of C. Elegans notch/glp-1 during late oogenesis (or not all that glitters is GLD-1) /

Lublin, Alex Louis. January 2005 (has links)
Thesis (Ph.D. in Cell and Developmental Biology) -- University of Colorado at Denver and Health Sciences Center, 2005. / Typescript. Includes bibliographical references (leaves 82-86). Free to UCDHSC affiliates. Online version available via ProQuest Digital Dissertations;
128

The RNA Binding Protein SRSF1 modulates Immune and Cancer pathways by regulating MyD88 transcription

Unknown Date (has links)
Serine/Arginine splicing factor 1 (SRSF1), a member of the Serine/Arginine rich (SR) RNA-binding proteins (RBPs) family, regulates mRNA biogenesis at multiple steps and is deregulated in cancer and autoimmune diseases. Preliminary studies show that members of the SR protein family play a role in cellular transcription. We investigated SRSF1’s role in cellular gene transcription utilizing time-course RNA-Seq and nuclear run-on assays, validating a subset of genes transcriptionally regulated following SRSF1 overexpression. Pathway analysis showed that genes in the TNF/IL17 pathways were enriched in this dataset. Furthermore, we showed that MyD88, a strong activator of TNF transcription through transcription factors NF-κB and AP-1, is a primary target of SRSF1’s transcriptional activity. We propose that SRSF1 activates the transcription factors NF-κB and AP-1 through MyD88 pathway. SRSF1 overexpression regulates several genes that are deregulated in malignancies and immune disease, suggesting a role for SRSF1’s transcriptional activity in oncogenesis and immune response regulation. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2020. / FAU Electronic Theses and Dissertations Collection
129

Identification of peroxisome proliferator-activated receptor alpha (PPARα)-dependent genes involved in peroxisome proliferator-induced hepatocarcinogenesis.

January 2006 (has links)
Leung Wan-chi. / Thesis submitted in: November 2005. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2006. / Includes bibliographical references (leaves 276-284). / Abstracts in English and Chinese. / Abstract --- p.i / Abstract (Chinese Version) --- p.v / Acknowledgements --- p.viii / Tables of Contents --- p.ix / List of Abbreviations --- p.xxx / List of Figures --- p.xxxiii / List of Tables --- p.xlii / Chapter Chapter 1 --- Literature review --- p.1 / Chapter 1.1 --- Peroxisome proliferator activator receptors --- p.1 / Chapter 1.2 --- Peroxisome proliferators --- p.6 / Chapter 1.2.1 --- Hepatomegaly --- p.9 / Chapter 1.2.2 --- Peroxisome proliferation --- p.11 / Chapter 1.2.3 --- Target genes regulation --- p.12 / Chapter 1.2.4 --- Hypolipidemic effect --- p.16 / Chapter 1.2.5 --- Hepatocarcinogenesis --- p.18 / Chapter 1.3 --- Mode of actions --- p.20 / Chapter 1.3.1 --- Oxidative stress --- p.21 / Chapter 1.3.2 --- Inhibition of apoptosis --- p.22 / Chapter 1.3.2 --- Increase in cell replication --- p.22 / Chapter 1.3.4 --- Alterations in cell cycle control --- p.23 / Chapter 1.4 --- Objectives --- p.23 / Chapter Chapter 2 --- Materials and Methods --- p.25 / Chapter 2.1 --- Animal tail-genotyping --- p.25 / Chapter 2.1.1 --- Materials --- p.25 / Chapter 2.1.2 --- Methods --- p.28 / Chapter 2.2 --- Animal treatment --- p.29 / Chapter 2.2.1 --- Materials --- p.29 / Chapter 2.2.2 --- Methods --- p.29 / Chapter 2.3 --- Serum cholesterol and tryiglyceride analysis --- p.30 / Chapter 2.3.1 --- Materials --- p.31 / Chapter 2.3.2 --- Methods --- p.31 / Chapter 2.3.2.1 --- Serum preparation --- p.31 / Chapter 2.3.2.2 --- Serum cholesterol analysis --- p.31 / Chapter 2.3.2.3 --- Serum triglyceride analysis --- p.32 / Chapter 2.4 --- Histological analysis --- p.32 / Chapter 2.4.1 --- Materials --- p.32 / Chapter 2.4.2 --- Methods --- p.33 / Chapter 2.5 --- Total RNA isolation --- p.34 / Chapter 2.5.1 --- Materials --- p.34 / Chapter 2.5.2 --- Methods --- p.34 / Chapter 2.6 --- DNase I treatment of total liver RNA --- p.37 / Chapter 2.6.1 --- Materials --- p.37 / Chapter 2.6.2 --- Methods --- p.37 / Chapter 2.7 --- Reverse transcription (RT) of mRNA and non- fluorescent PCR (non-fluoroDD PCR) --- p.38 / Chapter 2.7.1 --- Materials --- p.43 / Chapter 2.7.2 --- Methods --- p.43 / Chapter 2.8 --- Reverse transcription (RT) of mRNA and fluorescent PCR (fluoroDD PCR) --- p.44 / Chapter 2.8.1 --- Materials --- p.44 / Chapter 2.8.2 --- Method --- p.44 / Chapter 2.9 --- Fluorescent differential display (fluoroDD) --- p.45 / Chapter 2.9.1 --- Materials --- p.45 / Chapter 2.9.2 --- Methods --- p.45 / Chapter 2.9.2.1 --- FluoroDD gel preparation --- p.45 / Chapter 2.9.2.2 --- Sample preparation and electrophoresis --- p.45 / Chapter 2.10 --- Excision of differentially expressed cDNA fragments --- p.46 / Chapter 2.10.1 --- Materials --- p.46 / Chapter 2.10.2 --- Methods --- p.46 / Chapter 2.11 --- Reamplification of differentally expressed cDNA fragments --- p.48 / Chapter 2.11.1 --- Materials --- p.48 / Chapter 2.11.2 --- Methods --- p.50 / Chapter 2.12 --- Subcloning of reamplified cDNA fragmens --- p.50 / Chapter 2.12.1 --- Materials --- p.53 / Chapter 2.12.2 --- Methods --- p.53 / Chapter 2.12.2.1 --- Ligation --- p.53 / Chapter 2.12.2.2 --- Transformation --- p.53 / Chapter 2.12.2.3 --- Phenol-choloroform extraction --- p.54 / Chapter 2.12.2.4 --- Confirmation of insert size by EcoRI digestion --- p.54 / Chapter 2.12.2.5 --- Mini-preparation of plasmid DNA from recombinant clones --- p.55 / Chapter 2.13 --- Sequencing of subcloned cDNA fragments --- p.55 / Chapter 2.13.1 --- Materials --- p.56 / Chapter 2.13.2 --- Methods --- p.56 / Chapter 2.13.2.1 --- Sequencing of fluoroDD cDNA fragments --- p.56 / Chapter 2.13.2.2 --- Blast search against computer database --- p.57 / Chapter 2.14 --- Northern blot analysis of sequenced cDNA fragments --- p.57 / Chapter 2.14.1 --- Materials --- p.58 / Chapter 2.14.2 --- Methods --- p.58 / Chapter 2.14.2.1 --- Formaldehyde agarose gel electrophoresis of total RNA --- p.58 / Chapter 2.14.2.2 --- Preparation of DIG-labeled RNA probes for hybridization --- p.59 / Chapter 2.14.2.3 --- Preparation of PCR DIG-labeled cDNA probes for hybridization --- p.60 / Chapter 2.14.2.4 --- Hybridization and colour development --- p.60 / Chapter Chapter 3 --- Results --- p.62 / Chapter 3.1 --- Confirmation of genotypes by PCR --- p.62 / Chapter 3.2 --- Body weight changes --- p.62 / Chapter 3.3 --- Organ weight changes --- p.67 / Chapter 3.4 --- Serum cholesterol and triglyceride levels --- p.70 / Chapter 3.5 --- Liver histology --- p.78 / Chapter 3.6 --- Reverse transcription (RT) of mRNA and non-fluorescent PCR (non-flurroDD PCR) --- p.114 / Chapter 3.7 --- Reverse transcription (RT) of mRNA and fluorescent PCR (fluoroDD PCR) --- p.125 / Chapter 3.8 --- Reamplification of fluorescent differential display (FDD) fragments --- p.138 / Chapter 3.9 --- Subcloning of reamplifled FDD fragments --- p.162 / Chapter 3.10 --- Sequencing of subcloned cDNA fragments --- p.176 / Chapter 3.11 --- Northern blot analysis of sequenced cDNA fragments --- p.195 / Chapter Chapter 4 --- Discussion --- p.250 / Chapter 4.1 --- Body weight changes --- p.250 / Chapter 4.2 --- Organ weight changes --- p.251 / Chapter 4.3 --- Serum cholesterol and triglyceride levels --- p.253 / Chapter 4.4 --- Liver histology --- p.254 / Chapter 4.5 --- "Functions and roles of identified PPARa-dependent and Wy-14,643- responsive genes" --- p.255 / Chapter 4.6 --- Mechanism of PP-induced hepatocarcinogeneis --- p.270 / Chapter Chapter 5 --- Conclusions --- p.274 / References --- p.276 / Appendix A Tables of preparation of reaction mix --- p.285 / Table A1. Preparation of animal tail genotyping PCR reaction --- p.285 / Table A2. Preparation of DNase I treatment --- p.285 / Table A3. Preparation of reverse transcription of non-fluoroDD and fluoroDD --- p.285 / Table A4. Preparation of non-fluoroDD and fluoroDD RT-PCR --- p.286 / Table A5. Preparation of reamplification of differentially expressed cDNA fragments --- p.286 / Table A6. Preparation of PCR reaction for DNA sequencing --- p.286 / Table A7. Preparation of PCR reaction for RNA probe --- p.287 / Table A8. Preparation of PCR reaction for cDNA probe --- p.287 / Appendix B DNA sequences and sequencing alignments of FluoroDD Fragments --- p.288 / Chapter B 1.1: --- DNA sequence of cDNA subclone AA1#2 (AP1 & ARP2) using M13 forward (-20) primer --- p.288 / Chapter B 1.2: --- "Sequencing alignment of cDNA subclone AA1#2 with mouse peroxisomal delta 3, delta 2-enoyl-Coenzyme A isomerase (Peci) by BLAST searching against the National Center for Biotechnology Information database" --- p.288 / Chapter B 1.3: --- Summary of sequence alignment of cDNA subclone AA1#2 with mouse Peci --- p.288 / Chapter B 2.1: --- DNA sequence of cDNA subclone AA1#3 (AP1 & ARP2) using M13 forward (-20) primer --- p.289 / Chapter B 2.2: --- "Sequencing alignment of cDNA subclone AA1#3 with mouse peroxisomal delta 3, delta 2-enoyl-Coenzyme A isomerase (Peci) by BLAST searching against the National Center for Biotechnology Information database" --- p.289 / Chapter B 2.3: --- Summary of sequence alignment of cDNA subclone AA1#3 with mouse Peci --- p.289 / Chapter B 3.1: --- DNA sequence of cDNA subclone AA1#4 (AP 1 & ARP2) using Ml3 reverse primer --- p.290 / Chapter B 3.2: --- "Sequencing alignment of cDNA subclone AA1#4 with mouse peroxisomal delta 3, delta 2-enoyl-Coenzyme A isomerase (Peci) by BLAST searching against the National Center for Biotechnology Information database" --- p.290 / Chapter B 3.3: --- Summary of sequence alignment of cDNA subclone AA1#4 with mouse Peci --- p.290 / Chapter B 4.1: --- DNA sequence of cDNA subclone AA1#20 (AP 1 & ARP2) using Ml3 forward (-20) primer --- p.291 / Chapter B 4.2: --- "Sequencing alignment of cDNA subclone AA1#20 with mouse peroxisomal delta 3, delta 2- enoyl-Coenzyme A isomerase (Peci) by BLAST searching against the National Center for Biotechnology Information database" --- p.291 / Chapter B 4.3: --- Summary of sequence alignment of cDNA subclone AA1#20 with mouse Peci --- p.291 / Chapter B 5.1: --- DNA sequence of cDNA subclone AA4#1 (AP 1 & ARP2) using Ml3 forward (-20) primer --- p.292 / Chapter B 5.2: --- Sequencing alignment of cDNA subclone AA4#1 with mouse apolipoprotein A-V (Apoa5) by BLAST searching against the National Center for Biotechnology Information database --- p.292 / Chapter B 5.3: --- Summary of sequence alignment of cDNA subclone AA4#1 with mouse Apoa5 --- p.292 / Chapter B 6.1: --- DNA sequence of cDNA subclone AA4#9 (AP 1 & ARP2) using Ml3 reverse primer --- p.293 / Chapter B 6.2: --- Sequencing alignment of cDNA subclone AA4#9 with mouse apolipoprotein A-V (Apoa5) by BLAST searching against the National Center for Biotechnology Information database --- p.293 / Chapter B 6.3: --- Summary of sequence alignment of cDNA subclone AA4#9 with mouse Apoa5 --- p.293 / Chapter B 7.1: --- DNA sequence of cDNA subclone AA5#5 (AP 1 & ARP2) using Ml3 forward (-20) primer --- p.294 / Chapter B 7.2: --- Sequencing alignment of cDNA subclone AA5#5 with mouse mitochondrion by BLAST searching against the National Center for Biotechnology Information database --- p.294 / Chapter B 7.3: --- Summary of sequence alignment of cDNA subclone AA5#5 with mouse mitochondrion --- p.294 / Chapter B 8.1: --- DNA sequence of cDNA subclone AA6#1 (AP1 & ARP2) using Ml3 forward (-20) primer --- p.295 / Chapter B 8.2: --- Sequencing alignment of cDNA subclone AA6#1 with mouse mitochondrion by BLAST searching against the National Center for Biotechnology Information database --- p.295 / Chapter B 8.3: --- Summary of sequence alignment of cDNA subclone AA6#1 with mouse mitochondion --- p.295 / Chapter B 9.1: --- DNA sequence of cDNA subclone AA6#9 (AP 1 & ARP2) using Ml3 reverse primer --- p.296 / Chapter B 9.2: --- Sequencing alignment of cDNA subclone AA6#9 with mouse mitochondrion by BLAST searching against the National Center for Biotechnology Information database --- p.296 / Chapter B 9.3: --- Summary of sequence alignment of cDNA subclone AA6#9 with mouse mitochondrion --- p.296 / Chapter B 10.1: --- DNA sequence of cDNA subclone AA7#3 (AP 1 & ARP2) using Ml3 forward (-20) primer --- p.297 / Chapter B 10.2: --- Sequencing alignment of cDNA subclone AA7#3 with mouse mitochondrion by BLAST searching against the National Center for Biotechnology Information database --- p.297 / Chapter B 10.3: --- Summary of sequence alignment of cDNA subclone AA7#3 with mouse mitochondrion --- p.297 / Chapter B 11.1: --- DNA sequence of cDNA subclone AA7#5 (AP 1 & ARP2) using Ml3 reverse primer --- p.298 / Chapter B 11.2: --- Sequencing alignment of cDNA subclone AA7#5 with mouse mitochondrion by BLAST searching against the National Center for Biotechnology Information database --- p.298 / Chapter B 11.3: --- Summary of sequence alignment of cDNA subclone AA7#5 with mouse mitochondrion --- p.298 / Chapter B 12.1: --- DNA sequence of cDNA subclone AA10#1 (AP1 & ARP2) using M l3 forward (-20) primer --- p.299 / Chapter B 12.2: --- Sequencing alignment of cDNA subclone AA10#1 with mouse cysteine sulfinic acid decarboxylase (Csad) by BLAST searching against the National Center for Biotechnology Information database --- p.299 / Chapter B 12.3: --- Summary of sequence alignment of cDNA subclone AA10#1 with mouse Csad --- p.299 / Chapter B 13.1: --- DNA sequence of cDNA subclone AA10#1 (AP 1 & ARP2) using M13 reverse primer --- p.300 / Chapter B 13.2: --- Sequencing alignment of cDNA subclone AA10#1 with mouse cysteine sulfinic acid decarboxylase (Csad) by BLAST searching against the National Center for Biotechnology Information database --- p.300 / Chapter B 13.3: --- Summary of sequence alignment of cDNA subclone AA10#1 with mouse Csad --- p.300 / Chapter B 14.1: --- DNA sequence of cDNA subclone AA12#4 (AP1 & ARP2) using Ml3 forward (-20) primer --- p.301 / Chapter B 14.2: --- "Sequencing alignment of cDNA subclone AA12#4 with mouse acetyl-coenzyme A dehydrogenase, medium chain (MCAD) by BLAST searching against the National Center for Biotechnology Information database" --- p.301 / Chapter B 14.3: --- Summary of sequence alignment of cDNA subclone AA12#4 with mouse MCAD --- p.301 / Chapter B 15.1: --- DNA sequence of cDNA subclone AA12#4 (AP 1 & ARP2) using Ml3 reverse primer --- p.302 / Chapter B 15.2: --- "Sequencing alignment of cDNA subclone AA12#4 with mouse acetyl-coenzyme A dehydrogenase, medium chain (MCAD) by BLAST searching against the National Center for Biotechnology Information database" --- p.302 / Chapter B 15.3: --- Summary of sequence alignment of cDNA subclone AA12#4 with mouse MCAD --- p.302 / Chapter B 16.1: --- DNA sequence of cDNA subclone AB7#2 (AP3 & ARP3) using Ml3 forward (-20) primer --- p.303 / Chapter B 16.2: --- "Sequencing alignment of cDNA subclone AB7#2 with mouse UDP-glucuronosyltransferase 2 family, member 5 (UGT2b5) by BLAST searching against the National Center for Biotechnology Information database" --- p.303 / Chapter B 16.3: --- Summary of sequence alignment of cDNA subclone AB7#2 with mouse UGT2b5 --- p.303 / Chapter B 17.1: --- DNA sequence of cDNA subclone AB7#8 (AP3 & ARP3) using M13 reverse primer --- p.304 / Chapter B 17.2: --- "Sequencing alignment of cDNA subclone AB7#8 with mouse UDP-glucuronosyltransferase 2 family, member 5 (UGT2b5) by BLAST searching against the National Center for Biotechnology Information database" --- p.304 / Chapter B 17.3: --- Summary of sequence alignment of cDNA subclone AB7#8 with mouse UGT2b5 --- p.304 / Chapter B 18.1: --- DNA sequence of cDNA subclone AB17#16 (AP3 & ARP3) using M13 reverse primer --- p.305 / Chapter B 18.2: --- Sequencing alignment of cDNA subclone AB17#16 with mouse mitochondrion by BLAST searching against the National Center for Biotechnology Information database --- p.305 / Chapter B 18.3: --- Summary of sequence alignment of cDNA subclone AB17#16 with mouse mitochondrion --- p.305 / Chapter B 19.1: --- DNA sequence of cDNA subclone AB18#4 (AP3 & ARP3) using M13 forward (-20) primer --- p.306 / Chapter B 19.2: --- Sequencing alignment of cDNA subclone AB18#4 with mouse mitochondrion by BLAST searching against the National Center for Biotechnology Information database --- p.306 / Chapter B 20.1: --- DNA sequence of cDNA subclone AB18#4 (AP3 & ARP3) using M13 reverse primer --- p.307 / Chapter B 20.2: --- Sequencing alignment of cDNA subclone AB18#4 with mouse mitochondrion by BLAST searching against the National Center for Biotechnology Information database --- p.307 / Chapter B 20.3: --- Summary of sequence alignment of cDNA subclone AB 18#4 with mouse mitochondrion --- p.307 / Chapter B 21.1: --- DNA sequence of cDNA subclone AB19#2 (AP3 & ARP3) using M13 forward (-20) primer --- p.308 / Chapter B 21.2: --- Sequencing alignment of cDNA subclone AB 19#2 with mouse mitochondrion by BLAST searching against the National Center for Biotechnology Information database --- p.308 / Chapter B 21.3: --- Summary of sequence alignment of cDNA subclone AB19#2 with mouse mitochondrion --- p.308 / Chapter B 22.1: --- DNA sequence of cDNA subclone AB19#10 (AP3 & ARP3) using Ml3 reverse primer --- p.309 / Chapter B 22.2: --- Sequencing alignment of cDNA subclone AB 19#10 with mouse mitochondrion by BLAST searching against the National Center for Biotechnology Information database --- p.309 / Chapter B 22.3: --- Summary of sequence alignment of cDNA subclone AB19#10 with mouse mitochondrion --- p.309 / Chapter B 23.1: --- DNA sequence ofcDNA subclone AB22#9 (AP3 & ARP3) using M13 forward (-20) primer --- p.310 / Chapter B 23.2: --- Sequencing alignment of cDNA subclone AB22#9 with mouse peroxisome biogenesis factor 16 (Pexl6) by BLAST searching against the National Center for Biotechnology Information database --- p.310 / Chapter B 23.3: --- Summary of sequence alignment of cDNA subclone AB22#9 with mouse Pexl6 --- p.310 / Chapter B 24.1: --- DNA sequence of cDNA subclone AB22#9 (AP3 & ARP3) using Ml3 reverse primer --- p.311 / Chapter B 24.2: --- Sequencing alignment of cDNA subclone AB22#9 with mouse peroxisome biogenesis factor 16 (Pexl6) by BLAST searching against the National Center for Biotechnology Information database --- p.311 / Chapter B 24.3: --- Summary of sequence alignment of cDNA subclone AB22#9 with mouse Pexl6 --- p.311 / Chapter B 25.1: --- DNA sequence ofcDNA subclone AB24#9 (AP3 & ARP3) using Ml3 forward (-20) primer --- p.312 / Chapter B 25.2: --- Sequencing alignment of cDNA subclone AB24#9 with mouse Cyp4al4 by BLAST searching against the National Center for Biotechnology Information database --- p.312 / Chapter B 25.3: --- Summary of sequence alignment of cDNA subclone AB24#9 with mouse Cyp4al4 --- p.312 / Chapter B 26.1: --- DNA sequence of cDNA subclone AB24#9 (AP3 & ARP3) using M13 reverse primer --- p.313 / Chapter B 26.2: --- Sequencing alignment of cDNA subclone AB24#9 with mouse Cyp4al4 by BLAST searching against the National Center for Biotechnology Information database --- p.313 / Chapter B 26.3: --- Summary of sequence alignment of cDNA subclone AB24#9 with mouse Cyp4al4 --- p.313 / Chapter B 27.1: --- DNA sequence of cDNA subclone AB25#6 (AP3 & ARP3) using Ml3 forward (-20) primer --- p.314 / Chapter B 27.2: --- Sequencing alignment of cDNA subclone AB25#6 with mouse Cyp4a l4 by BLAST searching against the National Center for Biotechnology Information database --- p.314 / Chapter B 27.3: --- Summary of sequence alignment of cDNA subclone AB25#6 with mouse Cyp4al4 --- p.314 / Chapter B 28.1: --- DNA sequence of cDNA subclone AB26#17 (AP3 & ARP3) using Ml3 forward (-20) primer --- p.315 / Chapter B 28.2: --- Sequencing alignment of cDNA subclone AB26#17 with mouse Cyp4al4 by BLAST searching against the National Center for Biotechnology Information database --- p.315 / Chapter B 28.3: --- Summary of sequence alignment of cDNA subclone AB26#17 with mouse Cyp4al4 --- p.315 / Chapter B 29.1: --- DNA sequence of cDNA subclone AB26#3Q (AP3 & ARP3) using M13 reverse primer --- p.316 / Chapter B 29.2: --- Sequencing alignment of cDNA subclone AB26#30 with mouse Cyp4al4 by BLAST searching against the National Center for Biotechnology Information database --- p.316 / Chapter B 29.3: --- Summary of sequence alignment of cDNA subclone AB26#30 with mouse Cyp4al4 --- p.316 / Chapter B 30.1: --- DNA sequence of cDNA subclone AB29#7 (AP3 & ARP3) using Ml3 forward (-20) primer --- p.317 / Chapter B 30.2: --- Sequencing alignment of cDNA subclone AB29#7 with mouse catalase by BLAST searching against the National Center for Biotechnology Information database --- p.317 / Chapter B 30.3: --- Summary of sequence alignment of cDNA subclone AB29#7 with mouse catalase --- p.317 / Chapter B 31.1: --- DNA sequence of cDNA subclone AC1#1 (AP2 & ARP19) using Ml3 forward (-20) primer --- p.318 / Chapter B 31.2: --- Sequencing alignment of cDNA subclone AC1#1 with mouse serine (or cysteine) proteinase inhibitor (SPI) by BLAST searching against the National Center for Biotechnology Information database --- p.318 / Chapter B 31.3: --- Summary of sequence alignment of cDNA subclone AC1#1 with mouse SPI --- p.318 / Chapter B 32.1: --- DNA sequence of cDNA subclone AC1#1 (AP2 & ARP 19) using Ml3 reverse primer --- p.319 / Chapter B 32.2: --- Sequencing alignment of cDNA subclone AC 1# 1 with mouse serine (or cysteine) proteinase inhibitor (SPI) by BLAST searching against the National Center for Biotechnology Information database --- p.319 / Chapter B 32.3: --- Summary of sequence alignment of cDNA subclone AC1#1 with mouse SPI --- p.319 / Chapter B 33.1: --- DNA sequence of cDNA subclone AC1#2 (AP2& ARP 19) using M13 forward (-20) primer --- p.320 / Chapter B 33.2: --- Sequencing alignment of cDNA subclone AC 1#2 with mouse serine (or cysteine) proteinase inhibitor (SPI) by BLAST searching against the National Center for Biotechnology Information database --- p.320 / Chapter B 33.3: --- Summary of sequence alignment of cDNA subclone AC1#2 with mouse SPI --- p.320 / Chapter B 34.1: --- DNA sequence of cDNA subclone AC1#2 (AP2& ARP 19) using M13 reverse primer --- p.321 / Chapter B 34.2: --- Sequencing alignment of cDNA subclone AC1#2 with mouse serine (or cysteine) proteinase inhibitor (SPI) by BLAST searching against the National Center for Biotechnology Information database --- p.321 / Chapter B 34.3: --- Summary of sequence alignment of cDNA subclone AC1#2 with mouse SPI --- p.321 / Chapter B 35.1: --- DNA sequence ofcDNA subclone AC2#2 (AP2 & ARP19) using Ml3 reverse primer --- p.322 / Chapter B 35.2: --- Sequencing alignment of cDNA subclone AC2#2 with mouse bifunctional enzyme (PBFE) by BLAST searching against the National Center for Biotechnology Information database --- p.322 / Chapter B 35.3: --- Summary of sequence alignment of cDNA subclone AC2#2 with mouse PBFE --- p.322 / Chapter B 36.1: --- DNA sequence of cDNA subclone AC2#5 (AP2 & ARP19) using Ml3 reverse primer --- p.323 / Chapter B 36.2: --- Sequencing alignment of cDNA subclone AC2#5 with mouse catalase by BLAST searching against the National Center for Biotechnology Information database --- p.323 / Chapter B 36.3: --- Summary of sequence alignment of cDNA subclone AC2#5 with mouse catalase --- p.323 / Chapter B 37.1: --- DNA sequence of cDNA subclone AC2#6 (AP2 & ARP19) using Ml3 forward (-20) primer --- p.324 / Chapter B 37.2: --- Sequencing alignment of cDNA subclone AC2#6 with mouse serine (or cysteine) proteinase inhibitor (SPI) by BLAST searching against the National Center for Biotechnology Information database --- p.324 / Chapter B 37.3: --- Summary of sequence alignment of cDNA subclone AC2#6 with mouse SPI --- p.324 / Chapter B 38.1: --- DNA sequence ofcDNA subclone AC4#3 (AP2 & ARP19) using Ml3 forward (-20) primer --- p.325 / Chapter B 38.2: --- Sequencing alignment of cDNA subclone AC4#3 with mouse Cyp2a5 by BLAST searching against the National Center for Biotechnology Information database --- p.325 / Chapter B 38.3: --- Summary of sequence alignment of cDNA subclone AC4#3 with mouse Cyp2a5 --- p.325 / Chapter B 39.1: --- DNA sequence ofcDNA subclone AC4#3 (AP2 & ARP 19) using M13 reverse primer --- p.326 / Chapter B 39.2: --- Sequencing alignment of cDNA subclone AC4#3 with mouse serine (or cysteine) proteinase inhibitor (SPI) by BLAST searching against the National Center for Biotechnology Information database --- p.326 / Chapter B 39.3: --- Summary of sequence alignment of cDNA subclone AC4#3 with mouse SPI --- p.326 / Chapter B 40.1: --- DNA sequence of cDNA subclone AC7#5 (AP2& ARP 19) using M13 forward (-20) primer --- p.327 / Chapter B 40.2: --- Sequencing alignment of cDNA subclone AC7#5 with mouse serine (or cysteine) proteinase inhibitor (SPI) by BLAST searching against the National Center for Biotechnology Information database --- p.327 / Chapter B 40.3: --- Summary of sequence alignment of cDNA subclone AC7#5 with mouse SPI --- p.327 / Chapter B 41.1: --- DNA sequence of cDNA subclone AD6#4 (AP2 & ARP 18) using Ml3 reverse primer --- p.328 / Chapter B 41.2: --- Sequencing alignment of cDNA subclone AD6#4 with mouse N-terminal Asn amidase (Ntanl) by BLAST searching against the National Center for Biotechnology Information database --- p.328 / Chapter B 41.3: --- Summary of sequence alignment of cDNA subclone AD6#4 with mouse Ntanl --- p.328 / Chapter B 42.1: --- DNA sequence of cDNA subclone AD6#10 (AP2 & ARP 18) using Ml3 forward (-20) primer --- p.329 / Chapter B 42.2: --- Sequencing alignment of cDNA subclone AD6#10 with mouse Cyp4al0 by BLAST searching against the National Center for Biotechnology Information database --- p.329 / Chapter B 42.3: --- Summary of sequence alignment of cDNA subclone AD6#10 with mouse Cvp4al0 --- p.329 / Chapter B 43.1: --- DNA sequence of cDNA subclone AD6#10 (AP2 & ARP18) using M13 reverse primer --- p.330 / Chapter B 43.2: --- Sequencing alignment of cDNA subclone AD6#10 with mouse Cyp4al0 by BLAST searching against the National Center for Biotechnology Information database --- p.330 / Chapter B 43.3: --- Summary of sequence alignment of cDNA subclone AD6#10 with mouse Cyp4al0 --- p.330 / Chapter B 44.1: --- DNA sequence of cDNA subclone AD8#2 (AP2 & ARP 18) using M13 forward (-20) primer --- p.331 / Chapter B 44.2: --- Sequencing alignment of cDNA subclone AD8#2with mouse Cyp4a l0 by BLAST searching against the National Center for Biotechnology Information database --- p.331 / Chapter B 44.3: --- Summary of sequence alignment of cDNA subclone AD8#2 with mouse Cvp4a10 --- p.331 / Chapter B 45.1: --- DNA sequence ofcDNA subclone AD8#7 (AP2 & ARP18) using Ml3 reverse primer --- p.332 / Chapter B 45.2: --- Sequencing alignment of cDNA subclone AD8#7 with mouse Cyp4al0 by BLAST searching against the National Center for Biotechnology Information database --- p.332 / Chapter B 45.3: --- Summary of sequence alignment of cDNA subclone AD8#7 with mouse Cyp4a10 --- p.332 / Chapter B 46.1: --- DNA sequence of cDNA subclone AD9#2 (AP2 & ARP 18) using Ml3 forward (-20) primer --- p.333 / Chapter B 46.2: --- Sequencing alignment of cDNA subclone AD9#2 with mouse Cyp4al0 by BLAST searching against the National Center for Biotechnology Information database --- p.333 / Chapter B 46.3: --- Summary of sequence alignment of cDNA subclone AD9#2 with mouse Cyp4al0 --- p.333 / Chapter B 47.1: --- DNA sequence of cDNA subclone AD9#3 (AP2 & ARP 18) using M13 reverse primer --- p.334 / Chapter B 47.2: --- Sequencing alignment of cDNA subclone AD9#3 with mouse Cyp4al0 by BLAST searching against the National Center for Biotechnology Information database --- p.334 / Chapter B 47.3: --- Summary of sequence alignment of cDNA subclone AD9#3 with mouse Cvp4a10 --- p.334 / Chapter B 48.1: --- DNA sequence ofcDNA subclone AF1#8 (AP10 & ARP13) using M13 forward (-20) primer --- p.335 / Chapter B 48.2: --- Sequencing alignment of cDNA subclone AF1#8 with mouse very-long-chain acyl-coA synthetase (VLACS) by BLAST searching against the National Center for Biotechnology Information database --- p.335 / Chapter B 48.3: --- Summary of sequence alignment of cDNA subclone AF1#8 with mouse VLACS --- p.335 / Chapter B 49.1: --- DNA sequence of cDNA subclone AF1#8 (AP 10 & ARP 13) using Ml3 reverse primer --- p.336 / Chapter B 49.2: --- Sequencing alignment of cDNA subclone AF1#8 with mouse very-long-chain acyl-coA synthetase (VLACS) by BLAST searching against the National Center for Biotechnology Information database --- p.336 / Chapter B 49.3: --- Summary of sequence alignment of cDNA subclone AF1#8 with mouse VLACS --- p.336 / Chapter B 50.1: --- DNA sequence of cDNA subclone AF21#5 (AP 10 & ARP 13) using M13 reverse primer --- p.337 / Chapter B 50.2: --- "Sequencing alignment ofcDNA subclone AF21#5 with mouse cell death-inducing DNA fragmentation factor, alpha subunit-like effector B (Cideb) by BLAST searching against the National Center for Biotechnology Information database" --- p.337 / Chapter B 50.3: --- Summary of sequence alignment of cDNA subclone AF21#5 with mouse Cideb --- p.337 / Chapter B 51.1: --- DNA sequence ofcDNA subclone AF25#6 (AP10 & ARP13) using M13 forward (-20) primer --- p.338 / Chapter B 51.2: --- Sequencing alignment of cDNA subclone AF25#6 with mouse major urinary protein 2 (MUPII) by BLAST searching against the National Center for Biotechnology Information database --- p.338 / Chapter B 51.3: --- Summary of sequence alignment of cDNA subclone AF25#6 with mouse MUP II --- p.338 / Chapter B 52.1: --- DNA sequence of cDNA subclone AF25#7 (AP 10 & ARP 13) using Ml3 reverse primer --- p.339 / Chapter B 52.2: --- Sequencing alignment of cDNA subclone AF25#7 with mouse major urinary protein 2 (MUP II) by BLAST searching against the National Center for Biotechnology Information database --- p.339 / Chapter B 52.3: --- Summary of sequence alignment of cDNA subclone AF25#7 with mouse MUPII --- p.339 / Chapter B 53.1: --- DNA sequence ofcDNA subclone AF30#4 (AP10 & ARP13) using M13 forward (-20) primer --- p.340 / Chapter B 53.2: --- Sequencing alignment of cDNA subclone AF30#4 with mouse mRNA for suppressor of actin mutations (SAC1 gene) by BLAST searching against the National Center for Biotechnology Information database --- p.340 / Chapter B 53.3: --- Summary of sequence alignment of cDNA subclone AF3Q#4 with mouse SAC1 --- p.340 / Chapter B 54.1: --- DNA sequence of cDNA subclone AF30#5 (AP 10 & ARP 13) using Ml3 reverse primer --- p.341 / Chapter B 54.2: --- Sequencing alignment of cDNA subclone AF30#5 with mouse mitochondrion by BLAST searching against the National Center for Biotechnology Information database --- p.341 / Chapter B 54.3: --- Summary of sequence alignment of cDNA subclone AF30#5 with mouse mitochondrion --- p.341 / Chapter B 55.1: --- DNA sequence ofcDNA subclone AH1#6 (AP11 & ARP19) using M13 forward (-20) primer --- p.342 / Chapter B 55.2: --- Sequencing alignment of cDNA subclone AH1#6 with mouse EST by BLAST searching against the National Center for Biotechnology Information database --- p.342 / Chapter B 55.3: --- Summary of sequence alignment of cDNA subclone AH1#6 with mouse EST --- p.342 / Chapter B 56.1: --- DNA sequence of cDNA subclone AIl#5 (AP6 & ARP4) using Ml3 forward (-20) primer --- p.343 / Chapter B 56.2: --- Sequencing alignment of cDNA subclone AIl#5 with mouse serine (or cysteine) proteinase inhibitor (SPI) by BLAST searching against the National Center for Biotechnology Information database --- p.343 / Chapter B 56.3: --- Summary of sequence alignment of cDNA subclone All#5 with mouse SPI --- p.343 / Chapter B 57.1: --- DNA sequence of cDNA subclone AI1#5 (AP6 & ARP4) using Ml3 reverse primer --- p.344 / Chapter B 57.2: --- Sequencing alignment of cDNA subclone AIl#5 with mouse serine (or cysteine) proteinase inhibitor (SPI) by BLAST --- p.344 / Chapter B 57.3: --- Summary of sequence alignment of cDNA subclone AIl #5 with mouse SPI --- p.344 / Chapter B 58.1: --- DNA sequence of cDNA subclone AI18#6 (AP6 & ARP4) using Ml3 forward (-20) primer --- p.345 / Chapter B 58.2: --- Sequencing alignment of cDNA subclone AI18#6 with mouse argininosuccinate lyase (Asl) by BLAST searching against the National Center for Biotechnology Information database --- p.345 / Chapter B 58.3: --- Summary of sequence alignment of cDNA subclone AI18#6 with mouse Asl --- p.345 / Chapter B 59.1: --- DNA sequence of cDNA subclone AI18#6 (AP6 & ARP4) using M13 reverse primer --- p.346 / Chapter B 59.2: --- Sequencing alignment of cDNA subclone AI18#6 with mouse argininosuccinate lyase (Asl) by BLAST searching against the National Center for Biotechnology Information database --- p.346 / Chapter B 59.3: --- Summary of sequence alignment of cDNA subclone AI18#6 with mouse Asl --- p.346 / Chapter B 60.1: --- DNA sequence ofcDNA subclone AJ1#4 (AP6 & ARP14) using Ml3 forward (-20) primer --- p.347 / Chapter B 60.2: --- Sequencing alignment of cDNA subclone AJ1#4 with mouse carboxylesterase by BLAST searching against the National Center for Biotechnology Information database --- p.347 / Chapter B 60.3: --- Summary of sequence alignment of cDNA subclone AJ1#4 with mouse carboxylesterase --- p.347 / Chapter B 61.1: --- DNA sequence ofcDNA subclone AJ1#5 (AP6 & ARP14) using Ml3 reverse primer --- p.348 / Chapter B 61.2: --- Sequencing alignment of cDNA subclone AJ1#5 with mouse carboxylesterase by BLAST searching against the National Center for Biotechnology Information database --- p.348 / Chapter B 61.3: --- Summary of sequence alignment of cDNA subclone AJ1#5 with mouse carboxylesterase --- p.348 / Chapter B 62.1: --- DNA sequence ofcDNA subclone AJ2#10 (AP6 & ARP14) using M13 forward (-20) primer --- p.349 / Chapter B 62.2: --- Sequencing alignment of cDNA subclone AJ2#10 with peroxisomal acyl-coA oxidase (AOX) by BLAST searching against the National Center for Biotechnology Information database --- p.349 / Chapter B 62.3: --- Summary of sequence alignment of cDNA subclone AJ2#10 with mouse AOX --- p.349 / Chapter B 63.1: --- DNA sequence ofcDNA subclone AJ2#10 (AP6 & ARP14) using Ml3 reverse primer --- p.350 / Chapter B 63.2: --- Sequencing alignment of cDNA subclone AJ2#10 with peroxisomal acyl-coA oxidase (AOX) by BLAST searching against the National Center for Biotechnology Information database --- p.350 / Chapter B 63.3: --- Summary of sequence alignment of cDNA subclone AJ2#10 with mouse AOX --- p.350 / Chapter B 64.1: --- DNA sequence ofcDNA subclone AJ9#1 (AP6 & ARP 14) using Ml3 forward (-20) primer --- p.351 / Chapter B 64.2: --- Sequencing alignment of cDNA subclone AJ9#1 with mouse catalase by BLAST searching against the National Center for Biotechnology Information database --- p.351 / Chapter B 64.3: --- Summary of sequence alignment of cDNA subclone AJ9#1 with mouse catalase --- p.351 / Chapter B 65.1: --- DNA sequence ofcDNA subclone AJ9#1 (AP6 & ARP14) using Ml3 reverse primer --- p.352 / Chapter B 65.2: --- Sequencing alignment of cDNA subclone AJ9#1 with mouse suppressor of actin mutations (SAC1 gene) by BLAST searching against the National Center for Biotechnology Information database --- p.352 / Chapter B 65.3: --- Summary of sequence alignment of cDNA subclone AJ9#1 with mouse SAC1 --- p.352 / Chapter B 66.1: --- DNA sequence ofcDNA subclone AL2#8 (AP7 & ARP15) using M13 forward (-20) primer --- p.353 / Chapter B 66.2: --- Sequencing alignment of cDNA subclone AL2#8 with mouse hydroxy steroid (17-beta) dehydrogenase 11 (Hsdl7pil) by BLAST searching against the National Center for Biotechnology Information database --- p.353 / Chapter B 66.3: --- Summary of sequence alignment of cDNA subclone AL2#8 with mouse HSD17β11 --- p.353 / Chapter B 67.1: --- DNA sequence of cDNA subclone AL3#3 (AP7& ARP 15) using Ml3 forward (-20) primer --- p.354 / Chapter B 67.2: --- Sequencing alignment of cDNA subclone AL3#3 with mouse hydroxy steroid (17-beta) dehydrogenase 11 (Hsdl7pll) by BLAST searching against the National Center for Biotechnology Information database --- p.354 / Chapter B 67.3: --- Summary of sequence alignment of cDNA subclone AL3#3 with mouse HSD17β11 --- p.354 / Chapter B 68.1: --- DNA sequence of cDNA subclone AL3#3 (AP7& ARP 15) using M13 reverse primer --- p.355 / Chapter B 68.2: --- Sequencing alignment of cDNA subclone AL3#3 with mouse hydroxysteroid (17-beta) dehydrogenase 11 (Hsdl7β1l) by BLAST searching against the National Center for Biotechnology Information database --- p.355 / Chapter B 68.3: --- Summary of sequence alignment of cDNA subclone AL3#3 with mouse HSD17β11 --- p.355 / Chapter B 69.1: --- DNA sequence of cDNA subclone AO1#2 (AP5 & ARP 10) 356 using Ml3 forward (-20) primer --- p.356 / Chapter B 69.2: --- Sequencing alignment of cDNA subclone AO1#2 with mouse 356 adipose differentiation related protein (ADFP) by BLAST searching against the National Center for Biotechnology Information database --- p.356 / Chapter B 69.3: --- Summary of sequence alignment of cDNA subclone AO1 #2 with 356 mouse ADFP --- p.356 / Chapter B 70.1: --- DNA sequence ofcDNA subclone AO1#5 (AP5 & ARP10) 357 using M13 reverse primer --- p.357 / Chapter B 70.2: --- Sequencing alignment of cDNA subclone AO1#5 with mouse 357 carnitine O-octanoyltransferase (Crot) by BLAST searching against the National Center for Biotechnology Information database --- p.357 / Chapter B 70.3: --- Summary of sequence alignment of cDNA subclone AO1 #5 with 357 mouse Crot --- p.357 / Chapter B 71.1: --- DNA sequence ofcDNA subclone AO2#6 (AP5 & ARP10) 358 using Ml3 forward (-20) primer --- p.358 / Chapter B 71.2: --- Sequencing alignment of cDNA subclone A02#6 with mouse 358 RNase A family 4 (Rnase4) by BLAST searching against the National Center for Biotechnology Information database --- p.358 / Chapter B 71.3: --- Summary of sequence alignment of cDNA subclone AO2#6 358 with mouse Rnase4 --- p.358 / Chapter B 72.1: --- DNA sequence of cDNA subclone AO2#6 (AP5 & ARP 10) 359 using Ml3 reverse primer --- p.359 / Chapter B 72.2: --- Sequencing alignment of cDNA subclone A02#6 with mouse 359 RNase A family 4 (Rnase4) by BLAST searching against the National Center for Biotechnology Information database --- p.359 / Chapter B 72.3: --- Summary of sequence alignment of cDNA subclone A02#6 359 with mouse Rnase4 --- p.359 / Chapter B 73.1: --- DNA sequence ofcDNA subclone AO2#8 (AP5 & ARP10) 360 using Ml3 reverse primer --- p.360 / Chapter B 73.2: --- Sequencing alignment of cDNA subclone A02#8 with mouse 360 carnitine O-octanoyltransferase (Crot) by BLAST searching against the National Center for Biotechnology Information database --- p.360 / Chapter B 73.3: --- Summary of sequence alignment of cDNA subclone AO2#8 with 360 mouse Crot --- p.360 / Chapter B 74.1: --- DNA sequence ofcDNA subclone AO8#2 (AP5 & ARP10) 361 using M13 forward (-20) primer --- p.361 / Chapter B 74.2: --- Sequencing alignment of cDNA subclone A08#2 with mouse 361 RNase A family 4 (Rnase4) by BLAST searching against the National Center for Biotechnology Information database --- p.361 / Chapter B 74.3: --- Summary of sequence alignment of cDNA subclone AO8#2 with 361 mouse Rnase4 --- p.361 / Chapter B 75.1: --- DNA sequence of cDNA subclone AP4#4 (AP12 & ARP2) 362 using Ml3 forward (-20) primer --- p.362 / Chapter B 75.2: --- Sequencing alignment of cDNA subclone AP4#4 with mouse 362 mitochondrion by BLAST searching against the National Center for Biotechnology Information database --- p.362 / Chapter B 75.3: --- Summary of sequence alignment of cDNA subclone AP4#4 with 362 mouse mitochondrion --- p.362 / Chapter B 76.1: --- DNA sequence ofcDNA subclone AP4#4 (AP12 & ARP2) 363 using Ml3 reverse primer --- p.363 / Chapter B 76.2: --- Sequencing alignment of cDNA subclone AP4#4 with mouse 363 mitochondrion by BLAST searching against the National Center for Biotechnology Information database --- p.363 / Chapter B 76.3: --- Summary of sequence alignment of cDNA subclone AP4#4 with 363 mouse mitochondrion --- p.363
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Evaluation and implementation of a molecular-based protocol for the identification of enteroviruses at the Florida Department of Health - Tampa Laboratory [electronic resource] / by Matthew Adams Smith.

Smith, Matthew Adams. January 2003 (has links)
Title from PDF of title page. / Document formatted into pages; contains 86 pages. / Thesis (M.S.P.H.)--University of South Florida, 2003. / Includes bibliographical references. / Text (Electronic thesis) in PDF format. / ABSTRACT: The Enterovirus genus within the family Picornaviridae contains over 100 serotypes, of which sixty-four are known to be human pathogens. Infection with this group of RNA viruses produces a myriad of clinical conditions including poliomyelitis, meningitis, encephalitis, respiratory illnesses, and hand-foot-and-mouth disease. Outbreaks have been documented worldwide; significant morbidity and mortality exist to warrant laboratory surveillance. Traditionally, enteroviruses have been identified to the level of serotype by the serum neutralization assay. However, numerous problems are associated with this assay. The serum neutralization assay is labor intensive, results are often ambiguous, and reagents are becoming difficult to obtain. Recently, molecular-based typing protocols have been described that are cost effective and produce results that are more reliable. / ABSTRACT: The overall objective of this thesis was to implement a molecular-based typing protocol to replace the serum neutralization method currently used. Three specific aims were identified to reach this objective. First, a database cataloging all enteroviruses isolated at the Florida Department of Health - Tampa Branch Laboratory from 1981 through 2002 was created. Serotype prevalence, specimen submission rates, and temporal trends were analyzed to demonstrate the public health importance of enterovirus surveillance. Next, five oligonucleotide primer sets were compared with respect to sensitivity, specificity, and overall utility in molecular typing protocols developed to accurately determine enterovirus type. Finally, the most effective molecular assay was used to conduct two basic molecular epidemiological analyses of intratypic variation of Coxsackievirus B5 isolates, and of intratypic variation of successive Echovirus 9 passages. / ABSTRACT: The results from this study show that implementation of a molecular-based typing system for enteroviruses would be an improvement over current enterovirus serotyping methods. Results are obtained more rapidly and are more reliable. The implementation of such a system would improve the surveillance capabilities of the State of Florida Department of Health. / System requirements: World Wide Web browser and PDF reader. / Mode of access: World Wide Web.

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