Global ETD Search

1	The Evolution of the Deubiquitinating Enzyme Superfamily Vlasschaert, Caitlyn January 2016 (has links) Multiple versions of a parent gene can function within molecular systems as gene duplicates (paralogs) and alternatively spliced isoforms. Proteins related in this manner often serve redundant roles, though they can be selectively or randomly prescribed unique functions. The present collection of three manuscripts details the evolution of members of the deubiquitinating enzyme superfamily. The first manuscript delineates the chronology of USP4, USP15 and USP11 emergence and concludes that the presumed ancestor, USP11, is in fact a recent duplicate and that, at minimum, one copy of USP4 or USP15 is required for organismal viability. The second determines that the long and short isoforms of mammalian USP4 are maintained by natural selection to occupy discrete spatial roles. The final manuscript broadens the scope and objectively draws the genealogy of all deubiquitinating enzymes, with emphasis on significant points of functional divergence of paralogs within innate immunity and DNA repair pathways. USP4 molecular evolution deubiquitinating enzyme gene family
2	Studies on the Expression and Phosphorylation of the USP4 Deubiquitinating Enzyme Bastarache, Sophie 26 August 2011 (has links) The USP4 is a deubiquitinating enzyme found elevated in certain human lung and adrenal tumours. USP4 has a very close relative, USP15, which has caused great difficulty in studying only one or the other. We have had generated two antibodies specific to USP4 and USP15, and have confirmed that the two do not cross react. Although there have been previous findings of interacting partners, possible substrates and pathways in which it is involved, the biological role of USP4 is mostly unknown. We have used these antibodies to determine that USP4 and USP15 expression differs across tissue and cell types, and that expression changes as the organism ages. We have shown that USP4 plays a role in canonical Wnt signaling, perhaps by stabilizing Beta-catenin, and identified GRK2 as a kinase, phosphorylating USP4. These data have provided enough information to form a hypothesis, implicating USP4 with the destruction complex in the Wnt signaling pathway. USP4 Ubiquitin Proteasome B-catenin Wnt signaling GRK2
3	Studies on the Expression and Phosphorylation of the USP4 Deubiquitinating Enzyme Bastarache, Sophie 26 August 2011 (has links) The USP4 is a deubiquitinating enzyme found elevated in certain human lung and adrenal tumours. USP4 has a very close relative, USP15, which has caused great difficulty in studying only one or the other. We have had generated two antibodies specific to USP4 and USP15, and have confirmed that the two do not cross react. Although there have been previous findings of interacting partners, possible substrates and pathways in which it is involved, the biological role of USP4 is mostly unknown. We have used these antibodies to determine that USP4 and USP15 expression differs across tissue and cell types, and that expression changes as the organism ages. We have shown that USP4 plays a role in canonical Wnt signaling, perhaps by stabilizing Beta-catenin, and identified GRK2 as a kinase, phosphorylating USP4. These data have provided enough information to form a hypothesis, implicating USP4 with the destruction complex in the Wnt signaling pathway. USP4 Ubiquitin Proteasome B-catenin Wnt signaling GRK2
4	Studies on the Expression and Phosphorylation of the USP4 Deubiquitinating Enzyme Bastarache, Sophie 26 August 2011 (has links) The USP4 is a deubiquitinating enzyme found elevated in certain human lung and adrenal tumours. USP4 has a very close relative, USP15, which has caused great difficulty in studying only one or the other. We have had generated two antibodies specific to USP4 and USP15, and have confirmed that the two do not cross react. Although there have been previous findings of interacting partners, possible substrates and pathways in which it is involved, the biological role of USP4 is mostly unknown. We have used these antibodies to determine that USP4 and USP15 expression differs across tissue and cell types, and that expression changes as the organism ages. We have shown that USP4 plays a role in canonical Wnt signaling, perhaps by stabilizing Beta-catenin, and identified GRK2 as a kinase, phosphorylating USP4. These data have provided enough information to form a hypothesis, implicating USP4 with the destruction complex in the Wnt signaling pathway. USP4 Ubiquitin Proteasome B-catenin Wnt signaling GRK2
5	Studies on the Expression and Phosphorylation of the USP4 Deubiquitinating Enzyme Bastarache, Sophie January 2011 (has links) The USP4 is a deubiquitinating enzyme found elevated in certain human lung and adrenal tumours. USP4 has a very close relative, USP15, which has caused great difficulty in studying only one or the other. We have had generated two antibodies specific to USP4 and USP15, and have confirmed that the two do not cross react. Although there have been previous findings of interacting partners, possible substrates and pathways in which it is involved, the biological role of USP4 is mostly unknown. We have used these antibodies to determine that USP4 and USP15 expression differs across tissue and cell types, and that expression changes as the organism ages. We have shown that USP4 plays a role in canonical Wnt signaling, perhaps by stabilizing Beta-catenin, and identified GRK2 as a kinase, phosphorylating USP4. These data have provided enough information to form a hypothesis, implicating USP4 with the destruction complex in the Wnt signaling pathway. USP4 Ubiquitin Proteasome B-catenin Wnt signaling GRK2

1

Page generated in 0.0192 seconds