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<font size = 4> Research Overview | |||
<Font size = 3> Functional Organization of the Nucleus | |||
Our work centers upon understanding the functional organization of the nucleus. In particular, we are interested in understanding how certain human diseases alter nuclear efficiency. The nucleus contains a myriad of dynamic, highly organized domains, territories and bodies. All of these structures somehow work together; seamlessly allowing important nuclear activities, such as RNA synthesis and processing, to occur in an efficient manner. In certain disease states, the organization of the nucleus is altered. We hypothesize that diseases which disrupt the functional organization of the nucleus adversely affect ribonucleoprotein (RNP) maturation, resulting in decreased pre-mRNA and rRNA processing. | |||
One nuclear structure altered by some diseases is the Cajal body (CB). Various diseases are correlated with the disruption of the CB or alteration in its protein composition. Two examples are Spinal Muscular Atrophy (SMA) and Machado-Joseph disease. In Machado-Joseph disease, CBs are tethered to large inclusions caused by an expanded polyglutamine tract mutation in the protein ataxin-3. In Spinal Muscular Atrophy (SMA), the composition of the CB is altered because an important protein, known as SMN, is no longer enriched in this structure. SMN is crucial for the cytoplasmic phase of small nuclear RNP (snRNP) biogenesis and localizes in the nucleus to the CB. It is possible that SMN chaperones newly imported snRNPs (which are needed for pre-mRNA splicing) to the CB where they are modified. | |||
<font size = 2.5> Department of Biochemistry University of Mississippi Medical Center | <font size = 2.5> Department of Biochemistry University of Mississippi Medical Center | ||
Revision as of 16:47, 3 June 2010
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Research Overview
Functional Organization of the Nucleus
Our work centers upon understanding the functional organization of the nucleus. In particular, we are interested in understanding how certain human diseases alter nuclear efficiency. The nucleus contains a myriad of dynamic, highly organized domains, territories and bodies. All of these structures somehow work together; seamlessly allowing important nuclear activities, such as RNA synthesis and processing, to occur in an efficient manner. In certain disease states, the organization of the nucleus is altered. We hypothesize that diseases which disrupt the functional organization of the nucleus adversely affect ribonucleoprotein (RNP) maturation, resulting in decreased pre-mRNA and rRNA processing. One nuclear structure altered by some diseases is the Cajal body (CB). Various diseases are correlated with the disruption of the CB or alteration in its protein composition. Two examples are Spinal Muscular Atrophy (SMA) and Machado-Joseph disease. In Machado-Joseph disease, CBs are tethered to large inclusions caused by an expanded polyglutamine tract mutation in the protein ataxin-3. In Spinal Muscular Atrophy (SMA), the composition of the CB is altered because an important protein, known as SMN, is no longer enriched in this structure. SMN is crucial for the cytoplasmic phase of small nuclear RNP (snRNP) biogenesis and localizes in the nucleus to the CB. It is possible that SMN chaperones newly imported snRNPs (which are needed for pre-mRNA splicing) to the CB where they are modified.
Department of Biochemistry University of Mississippi Medical Center
