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Sunter, Garry

One or more keywords matched the following properties of Sunter, Garry

Property	Value
overview	The main focus of Dr. Sunter’s research is directed toward the study of plant gene expression, DNA replication, and plant-pathogen interactions using single-stranded DNA plant viruses of the family Geminiviridae as a model system. One aspect of the research involves transcriptional regulation. In many viral systems, gene expression follows a temporal sequence that is closely coordinated and during the initial stages of infection viral DNA replication and transcription rely entirely on the host and in many cases some of the viral proteins initially expressed are subsequently involved in the regulation of other viral genes. Dr. Sunter is particularly interested in two viral genes that are involved in replication and transcription of the viral genome. The coordinate regulation of these genes appears crucial to ensure correct timing of both replication and transcription and may well reveal novel mechanisms and insights into plant transcription mechanisms. A second interest involves the role of viral genes in host gene activation. Geminiviruses rely primarily on host replication and transcriptional machinery to express their genes and amplify their genomic DNA. To overcome the inherent inability of plant cells to replicate viral DNA, geminiviruses must in some way make cells receptive to replication and transcription of the virus. In animals, many DNA viruses are capable of altering the host cell to facilitate efficient replication and transcription of viral DNA, either by direct activation of host gene expression or by interacting with cellular transcription factors. These interactions in turn induce expression of genes encoding proteins required for DNA replication and cell cycle progression. Dr. Sunter is interested in identifying cellular genes activated and/or repressed by the virus and elucidating mechanisms by which the virus interacts with these proteins.

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overview

The main focus of Dr. Sunter’s research is directed toward the study of plant gene expression, DNA replication, and plant-pathogen interactions using single-stranded DNA plant viruses of the family Geminiviridae as a model system. One aspect of the research involves transcriptional regulation. In many viral systems, gene expression follows a temporal sequence that is closely coordinated and during the initial stages of infection viral DNA replication and transcription rely entirely on the host and in many cases some of the viral proteins initially expressed are subsequently involved in the regulation of other viral genes. Dr. Sunter is particularly interested in two viral genes that are involved in replication and transcription of the viral genome. The coordinate regulation of these genes appears crucial to ensure correct timing of both replication and transcription and may well reveal novel mechanisms and insights into plant transcription mechanisms. A second interest involves the role of viral genes in host gene activation. Geminiviruses rely primarily on host replication and transcriptional machinery to express their genes and amplify their genomic DNA. To overcome the inherent inability of plant cells to replicate viral DNA, geminiviruses must in some way make cells receptive to replication and transcription of the virus. In animals, many DNA viruses are capable of altering the host cell to facilitate efficient replication and transcription of viral DNA, either by direct activation of host gene expression or by interacting with cellular transcription factors. These interactions in turn induce expression of genes encoding proteins required for DNA replication and cell cycle progression. Dr. Sunter is interested in identifying cellular genes activated and/or repressed by the virus and elucidating mechanisms by which the virus interacts with these proteins.

One or more keywords matched the following items that are connected to Sunter, Garry

Item Type	Name
Academic Article	Distinct viral sequence elements are necessary for expression of Tomato golden mosaic virus complementary sense transcripts that direct AL2 and AL3 gene expression.
Academic Article	AL1-dependent repression of transcription enhances expression of Tomato golden mosaic virus AL2 and AL3.
Concept	DNA, Viral
Academic Article	Transactivation in a geminivirus: AL2 gene product is needed for coat protein expression.
Academic Article	Genetic analysis of the tomato golden mosaic virus. II. The product of the AL1 coding sequence is required for replication.
Academic Article	Negatively supercoiled DNA from plants infected with a single-stranded DNA virus.
Academic Article	Kinetics of tomato golden mosaic virus DNA replication and coat protein promoter activity in Nicotiana tabacum protoplasts.
Academic Article	Genetic analysis of tomato golden mosaic virus: ORF AL2 is required for coat protein accumulation while ORF AL3 is necessary for efficient DNA replication.
Academic Article	DNA sequences essential for replication of the B genome component of tomato golden mosaic virus.
Academic Article	S1-sensitive sites in the supercoiled double-stranded form of tomato golden mosaic virus DNA component B: identification of regions of potential alternative secondary structure and regulatory function.
Academic Article	Tomato golden mosaic virus leftward gene expression: autoregulation of geminivirus replication protein.

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DNA Viral