Your search keyword '"James Carey"' showing total 15 results

1. Interactions among gene regulation and expression, sequence deletion, and purifying selection following whole genome duplications in flowering plants

Author

Schnable, James Carey, Freeling, Michael1, Schnable, James Carey, Schnable, James Carey, Freeling, Michael1, and Schnable, James Carey

Abstract

Polyploidy, or whole genome duplication, is rampant among both extant and ancient flowering plant species. Whole genome duplications create simultaneous copies of all genes contained within a genome as well as associated regulatory sequences. These duplication and the subsequent deletions of redundant coding and noncoding sequence both shape the natural evolution of plant genomes and provide a unique opportunity for researchers to characterize the regulatory sequences which determine when, in which cells and in what quantities the mRNA encoded for by particular genes will be produced. This dissertation describes a model for explaining both bias in gene loss between parental subgenomes and the escape from preferential retention of duplicated genes between sequential whole genome duplications. Bias in gene deletion between individual duplicated segments had been previously observed by the publication of the sorghum and maize genomes provided an opportunity to demonstrate this bias was a consistent mark distinguishing whole pairs of ancestral chromosomes, and that ongoing gene loss remains consistently biased between high and low gene loss subgenomes millions of generations after a whole genome duplication. Bias in both ancestral and ongoing gene loss is shown to be correlated with biased gene expression between parental subgenomes with genes on the low gene loss subgenome tending to show higher expression levels than duplicate copies of the same genes on the high gene loss subgenome. This phenomena, originally referred to as genome dominance, although the literature has since become somewhat confused, provides an explanation both for biased gene loss between parental subgenomes and for the escape of deletion-resistant genes from the ratchet of ever increasing copy numbers through continued whole genome duplications. This dissertation also demonstrates the use of polyploid lineage - in this case maize - as a deletion machine to rapidly characterize the function of regu

Published

2012

2. Interactions among gene regulation and expression, sequence deletion, and purifying selection following whole genome duplications in flowering plants

Author

Schnable, James Carey, Freeling, Michael1, Schnable, James Carey, Schnable, James Carey, Freeling, Michael1, and Schnable, James Carey

Abstract

Polyploidy, or whole genome duplication, is rampant among both extant and ancient flowering plant species. Whole genome duplications create simultaneous copies of all genes contained within a genome as well as associated regulatory sequences. These duplication and the subsequent deletions of redundant coding and noncoding sequence both shape the natural evolution of plant genomes and provide a unique opportunity for researchers to characterize the regulatory sequences which determine when, in which cells and in what quantities the mRNA encoded for by particular genes will be produced. This dissertation describes a model for explaining both bias in gene loss between parental subgenomes and the escape from preferential retention of duplicated genes between sequential whole genome duplications. Bias in gene deletion between individual duplicated segments had been previously observed by the publication of the sorghum and maize genomes provided an opportunity to demonstrate this bias was a consistent mark distinguishing whole pairs of ancestral chromosomes, and that ongoing gene loss remains consistently biased between high and low gene loss subgenomes millions of generations after a whole genome duplication. Bias in both ancestral and ongoing gene loss is shown to be correlated with biased gene expression between parental subgenomes with genes on the low gene loss subgenome tending to show higher expression levels than duplicate copies of the same genes on the high gene loss subgenome. This phenomena, originally referred to as genome dominance, although the literature has since become somewhat confused, provides an explanation both for biased gene loss between parental subgenomes and for the escape of deletion-resistant genes from the ratchet of ever increasing copy numbers through continued whole genome duplications. This dissertation also demonstrates the use of polyploid lineage - in this case maize - as a deletion machine to rapidly characterize the function of regu

Published

2012

3. Stability of stereognosis after pediatric repetitive transcranial magnetic stimulation and constraint-induced movement therapy clinical trial

Author

Tonya Rich, Jessica Cassidy, Jeremiah Menk, Ann Van Heest, Linda Krach, James Carey, Bernadette T. Gillick, Tonya Rich, Jessica Cassidy, Jeremiah Menk, Ann Van Heest, Linda Krach, James Carey, and Bernadette T. Gillick

Published

2016

4. Freedom Thwarted: Israel’s Illegal Attack on the Gaza Flotilla

Author

Bisharat, George E., Bisharat, George E., James, Carey, Bisharat, George E., Bisharat, George E., and James, Carey

Published

2011

5. Freedom Thwarted: Israel’s Illegal Attack on the Gaza Flotilla

Author

Bisharat, George E., Bisharat, George E., James, Carey, Bisharat, George E., Bisharat, George E., and James, Carey

Published

2011

6. Small Mammal Ecology in a Relict Grassland in West-Central Kansas

Author

Stroh, James Carey, Stroh, James Carey, Stroh, James Carey, and Stroh, James Carey

Abstract

The extent of competition between deer mice, Peromyscus maniculatus, and western harvest mice, Reitbrodontomys megalotis, was assessed by a species removal experiment conducted on a relict grassland in Ellis County, Kansas. Vegetation was sampled to determine microhabitats. There was no indication of ecological release for either species when mouse densities were manipulated. Vegetational analysis revealed significant differences in microhabitats utilized by the two species.

Published

1986

7. Small Mammal Ecology in a Relict Grassland in West-Central Kansas

Author

Stroh, James Carey, Stroh, James Carey, Stroh, James Carey, and Stroh, James Carey

Abstract

The extent of competition between deer mice, Peromyscus maniculatus, and western harvest mice, Reitbrodontomys megalotis, was assessed by a species removal experiment conducted on a relict grassland in Ellis County, Kansas. Vegetation was sampled to determine microhabitats. There was no indication of ecological release for either species when mouse densities were manipulated. Vegetational analysis revealed significant differences in microhabitats utilized by the two species.

Published

1986

8. Small Mammal Ecology in a Relict Grassland in West-Central Kansas

Author

Stroh, James Carey, Stroh, James Carey, Stroh, James Carey, and Stroh, James Carey

Abstract

The extent of competition between deer mice, Peromyscus maniculatus, and western harvest mice, Reitbrodontomys megalotis, was assessed by a species removal experiment conducted on a relict grassland in Ellis County, Kansas. Vegetation was sampled to determine microhabitats. There was no indication of ecological release for either species when mouse densities were manipulated. Vegetational analysis revealed significant differences in microhabitats utilized by the two species.

Published

1986

9. Small Mammal Ecology in a Relict Grassland in West-Central Kansas

Author

Stroh, James Carey, Stroh, James Carey, Stroh, James Carey, and Stroh, James Carey

Abstract

The extent of competition between deer mice, Peromyscus maniculatus, and western harvest mice, Reitbrodontomys megalotis, was assessed by a species removal experiment conducted on a relict grassland in Ellis County, Kansas. Vegetation was sampled to determine microhabitats. There was no indication of ecological release for either species when mouse densities were manipulated. Vegetational analysis revealed significant differences in microhabitats utilized by the two species.

Published

1986

10. Small Mammal Ecology in a Relict Grassland in West-Central Kansas

Author

Stroh, James Carey, Stroh, James Carey, Stroh, James Carey, and Stroh, James Carey

Abstract

The extent of competition between deer mice, Peromyscus maniculatus, and western harvest mice, Reitbrodontomys megalotis, was assessed by a species removal experiment conducted on a relict grassland in Ellis County, Kansas. Vegetation was sampled to determine microhabitats. There was no indication of ecological release for either species when mouse densities were manipulated. Vegetational analysis revealed significant differences in microhabitats utilized by the two species.

Published

1986

11. Small Mammal Ecology in a Relict Grassland in West-Central Kansas

Author

Stroh, James Carey, Stroh, James Carey, Stroh, James Carey, and Stroh, James Carey

Abstract

The extent of competition between deer mice, Peromyscus maniculatus, and western harvest mice, Reitbrodontomys megalotis, was assessed by a species removal experiment conducted on a relict grassland in Ellis County, Kansas. Vegetation was sampled to determine microhabitats. There was no indication of ecological release for either species when mouse densities were manipulated. Vegetational analysis revealed significant differences in microhabitats utilized by the two species.

Published

1986

12. Small Mammal Ecology in a Relict Grassland in West-Central Kansas

Author

Stroh, James Carey, Stroh, James Carey, Stroh, James Carey, and Stroh, James Carey

Abstract

The extent of competition between deer mice, Peromyscus maniculatus, and western harvest mice, Reitbrodontomys megalotis, was assessed by a species removal experiment conducted on a relict grassland in Ellis County, Kansas. Vegetation was sampled to determine microhabitats. There was no indication of ecological release for either species when mouse densities were manipulated. Vegetational analysis revealed significant differences in microhabitats utilized by the two species.

Published

1986

13. Small Mammal Ecology in a Relict Grassland in West-Central Kansas

Author

Stroh, James Carey, Stroh, James Carey, Stroh, James Carey, and Stroh, James Carey

Abstract

The extent of competition between deer mice, Peromyscus maniculatus, and western harvest mice, Reitbrodontomys megalotis, was assessed by a species removal experiment conducted on a relict grassland in Ellis County, Kansas. Vegetation was sampled to determine microhabitats. There was no indication of ecological release for either species when mouse densities were manipulated. Vegetational analysis revealed significant differences in microhabitats utilized by the two species.

Published

1986

14. Small Mammal Ecology in a Relict Grassland in West-Central Kansas

Author

Stroh, James Carey, Stroh, James Carey, Stroh, James Carey, and Stroh, James Carey

Abstract

The extent of competition between deer mice, Peromyscus maniculatus, and western harvest mice, Reitbrodontomys megalotis, was assessed by a species removal experiment conducted on a relict grassland in Ellis County, Kansas. Vegetation was sampled to determine microhabitats. There was no indication of ecological release for either species when mouse densities were manipulated. Vegetational analysis revealed significant differences in microhabitats utilized by the two species.

Published

1986

15. Small Mammal Ecology in a Relict Grassland in West-Central Kansas

Author

Stroh, James Carey, Stroh, James Carey, Stroh, James Carey, and Stroh, James Carey

Abstract

The extent of competition between deer mice, Peromyscus maniculatus, and western harvest mice, Reitbrodontomys megalotis, was assessed by a species removal experiment conducted on a relict grassland in Ellis County, Kansas. Vegetation was sampled to determine microhabitats. There was no indication of ecological release for either species when mouse densities were manipulated. Vegetational analysis revealed significant differences in microhabitats utilized by the two species.

Published

1986