Developing an infectious Epstein-Barr virus based vector for the delivery of genomic transgenes

White, R. E.

January 2001

No description available.

610.28

Gene therapy; Expression

Synthesis of oligonucleotides and genes

Kodo, Y.

January 1988

No description available.

572

Gene/oligonucleotide synthesis

The mapping of X-linked ophthalmic disease

Black, Graeme

January 1994

No description available.

610

Gene disorders

Studies of the expression of the complement genes of the HLA

Wu, L-C.

January 1987

No description available.

572.8

Gene expression mapping

The role of lef-2 in the replication of Autographa californica nuclear polyhedrosis virus

Harrold, Claire Louise

January 1995

No description available.

579

Baculoviruses; Gene expression

An investigation of rat DNA polymerase alpha

Montgomery, Douglas S.

January 1985

The aim of this project was to clone the gene encoding the catalytic subunit of the rat DNA replication enzyme, DNA polymerase alpha. A strategy was adopted in which cDNA clones expressing the catalytic subunit sequences would be identified using anti-DNA polymerase antibodies. DNA polymerase alpha was partially purified from regenerating rat liver and exponentially growing rat Y3 myeloma cells. The catalytic subunit was identified as a 170-180kD polypeptide by activity gel analysis of partially purified Y3 cell fractions. The catalytic subunit was found to be susceptible to degradation but without loss of polymerase activity. Glycerol gradient analysis indicated a two stage degradation of DNA polymerase in vivo. Sera were collected from mice immunised with partially purified DNA polymerase alpha from regenerated rat liver. These sera cross-reacted with Western-blotted Y3 cell fractions; removed polymerase activity from solution in plate binding assays and bound alpha polymerase activity (140-180kD) on an immuno-adsorption column cDNA was synthesised using size selected mRNA from exponentially growing Y3 cells and cloned into the expression vectors pUC8 and ?gtll, both of which utilise the lac Z gene to express cloned DNA sequences. Immunoscreening of the ?gtll library was frustrated by non-specific binding of the serum. This non-specific binding was overcome by pre-adsorbing the serum against a lysate of E. coli JM 83. Screening of the pUC8 library revealled 27 out of 2.25x104 colonies which bound pre-adsorbed anti-DNA polymerase alpha serum.

572.8

Gene cloning in the rat

Glucose-6-phosphate dehydrogenase : construction of yeast DNA libraries and screening for its gene

Mann, William R.

January 1988

The aim of the project was to determine the sequence of the gene encoding glucose-6-phosphate dehydrogenase (G6PDH) in the industrially used, but genetically little explored yeast Candida utilis. In the first strategy, a C. utilis DNA library was constructed in the expression vector phage lambda gt11, and was screened immunologically with antiserum raised against C. utilis G6PDH. The second strategy involved construction of libraries in the plasmid vector pTZ18R and screening with a mixed oligonucleotide probe. Two methods were developed that allow DNA, of appropriate quality for the construction of DNA libraries, to be prepared from C. utilis cells. Both involve centrifugation of C. utilis lysates through caesium trifluoroacetate gradients. A rabbit antiserum was raised against a commercial preparation of C. utilis G6PDH. It reacted with Western blotted C. utilis G6PDH, and non-specific binding of the antiserum to Western blotted E. coli protein was reduced by treatment with an E. coli extract. Antiserum pretreated in this way was used for immunological screening. Sequence information was determined for the inserts of 7 phage identified during immunological screening. None of the insert sequences was considered to contain part of the C. utilis G6PDH coding sequence. One putative positive colony was identified during the screening of the pTZ18R libraries. Sequence determination showed the insert to contain a region complementary to 16 bases in one of the 17-base long probe oligonucleotides. This insert was considered not to contain part of the C. utilis G6PDH coding sequence. Time did not permit further work which, using the methods developed, should now permit determination of the C. utilis G6PDH gene sequence.

572.8

Gene encoding in Candida

Gene-pair based statistical methods for testing gene set enrichment in microarray gene expression studies

Zhao, Kaiqiong

16 September 2016

Gene set enrichment analysis aims to discover sets of genes, such as biological pathways or protein complexes, which may show moderate but coordinated differentiation across experimental conditions. The existing gene set enrichment approaches utilize single gene statistic as a measure of differentiation for individual genes. These approaches do not utilize any inter-gene correlations, but it has been known that genes in a pathway often interact with each other. Motivated by the need for taking gene dependence into account, we propose a novel gene set enrichment algorithm, where the gene-gene correlation is addressed via a gene-pair representation strategy. Relying on an appropriately defined gene pair statistic, the gene set statistic is formulated using a competitive null hypothesis. Extensive simulation studies show that our proposed approach can correctly control the type I error (false positive rate), and retain good statistical power for detecting true differential expression. The new method is also applied to analyze several gene expression datasets. / October 2016

Gene set enrichment analysis

Inter-gene correlation

Gene set summary statistic

Gene-pair statistic

Studies on cell cycle regulation in Arabidopsis and tobacco

Machuka, Jesse Simiyu

January 1994

No description available.

580

Gene regulation

Analysis and characterisation of the cdc2 gene region of fission yeast

Carr, A. M.

January 1987

No description available.

572.8

Yeast gene function