Open Access. Powered by Scholars. Published by Universities.®
- Institution
- Keyword
- Publication
- Publication Type
Articles 1 - 6 of 6
Full-Text Articles in Molecular Biology
Endogenous Cftr Expression In Human Epithelial Cell Lines, Zithlaly Amezquita
Endogenous Cftr Expression In Human Epithelial Cell Lines, Zithlaly Amezquita
Undergraduate Research Conference
CFTR (Cystic Fibrosis Transmembrane-conductance Regulator) is a plasma membrane protein that functions as a chloride ion channel on many epithelial cells. There are over 1000 mutations that affect the function of this protein; however, the most common mutation is DF508. CFTR mutations target many secretory organs like pancreas and lungs causing the genetic disease cystic fibrosis (CF), common among Caucasians of northern European origin. Detection of endogenous CFTR expression is possible by a difficult and costly immunoprecipitation method but not by the most used western blotting method. Therefore, the goal of this project was to detect the endogenous CFTR expression …
Insights Into Viral Genome Function Through Comparative Structural Analysis, Lydia Phillips
Insights Into Viral Genome Function Through Comparative Structural Analysis, Lydia Phillips
UNO Student Research and Creative Activity Fair
Enteroviruses are single stranded RNA viruses which have caused many public health concerns, particularly in children. These viruses are responsible for polio, hand, foot, and mouth disease, many polio-like neurological diseases, and the common cold. The enterovirus called Coxsackievirus B3 (CVB3), a close relative to poliovirus, has been shown responsible for severe human disease, including pancreatitis, myocarditis, and type 1 diabetes. A unique advantage of studying CVB3 is the existence of a naturally occurring strain (CVB3/GA) which displays no known pathogenicity. Earlier comparative genomic studies have shown that the primary difference between avirulent CVB3/GA and the virulent strains of CVB3 …
Progress Presentation On The Proposed Function Of Protein 4diu Through Bioinformatics Analyses, Melissa Hoff
Progress Presentation On The Proposed Function Of Protein 4diu Through Bioinformatics Analyses, Melissa Hoff
Biochemistry and Molecular Biology Presentations
The BASIL project is a scientific inquiry project that aims to determine the function of a protein from its structure. Biochemistry students completed wet lab work, while structural biology students worked in silico. The purpose of this study was to determine the function of the protein with PDB ID: 4DIU. Bioinformatics analyses were completed using several databases: BLAST, Dali, Pfam, and Moltimate, and imaging of the protein was completed using PyMOL software. The BLAST database aligned the primary sequence with known protein sequences. The Dali database compared protein structure with known structures through global alignment. The Pfam database matched our …
The Classification Of An Unknown Protein 3h04, Britney Dyszel
The Classification Of An Unknown Protein 3h04, Britney Dyszel
Biochemistry and Molecular Biology Presentations
An unclassified protein in the Protein Data Bank, 3H04, was selected as a protein of interest. Research was performed in silico to gain key information on the structure, sequence, and homology of protein 3H04. This research was guided using the BASIL Project’s protocols on in silico research. Several databases were utilized to study protein 3H04. Based on the data gathered, unclassified protein 3H04 is an aminopeptidase that cleaves prolyl-dipeptidyl peptide bonds through alpha beta hydrolase function.
Large Scale Dynamical Model Of Macrophage/Hiv Interactions, Matthew M. Froid
Large Scale Dynamical Model Of Macrophage/Hiv Interactions, Matthew M. Froid
UNO Student Research and Creative Activity Fair
Properties emerge from the dynamics of large-scale molecular networks that are not discernible at the individual gene or protein level. Mathematical models - such as probabilistic Boolean networks - of molecular systems offer a deeper insight into how these emergent properties arise. Here, we introduce a non-linear, deterministic Boolean model of protein, gene, and chemical interactions in human macrophage cells during HIV infection. Our model is composed of 713 nodes with 1583 interactions between nodes and is responsive to 38 different inputs including signaling molecules, bacteria, viruses, and HIV viral particles. Additionally, the model accurately simulates the dynamics of over …
Repsa-Directed Identification Of Dna-Binding Specificity For Orphan Transcription Factors, Kamir Hiam
Repsa-Directed Identification Of Dna-Binding Specificity For Orphan Transcription Factors, Kamir Hiam
Symposium of Student Scholars
The function of many genes and the biological roles of their encoded products are still not well characterized. Given the sequence-specific DNA-binding properties of transcription factor proteins, it is possible to purify them, identify the responsible polypeptide(s), determine their consensus binding sequences, and identify their genomic binding sites. Thus, one can go from cellular extract to proposed biological regulatory roles in relatively short order. Our goal is to identify and characterize orphan DNA-binding proteins in the model organism E. coli K12 using the novel combinatorial technique, REPSA (Restriction Endonuclease Protection Selection Amplification), as well as further develop the REPSA to …