CFTR gene

(noun)

The gene that encodes the CFTR protein is found on the human chromosome 7, on the long arm at position q31.2. from base pair 116,907,253 to base pair 117,095,955. CFTR orthologs have also been identified in all mammals for which complete genome data are available.

Related Terms

  • autosomal recessive
  • cystic fibrosis

Examples of CFTR gene in the following topics:

  • Cystic Fibrosis

    • CF is caused by a mutation in the gene for the protein cystic fibrosis transmembrane conductance regulator (CFTR).
    • Ideally, gene therapy attempts to place a normal copy of the CFTR gene into affected cells.
    • Transferring the normal CFTR gene into the affected epithelium cells would result in the production of functional CFTR in all target cells, without adverse reactions or an inflammation response.
    • Studies have shown that to prevent the lung manifestations of cystic fibrosis, only 5–10% the normal amount of CFTR gene expression is needed.
    • Finally, a number of small molecules that aim at compensating various mutations of the CFTR gene are under development.
  • Gene Families

    • Gene families are groups of functionally related genes arising from a duplicated gene.
    • A gene family is a set of several similar genes, formed by duplication of a single original gene, that generally have similar biochemical functions .
    • If the genes of a gene family encode proteins, the term protein family is often used in an analogous manner to gene family.
    • In contrast, gene complexes are simply tightly linked groups of genes, often created via gene duplication (sometimes called segmental duplication if the duplicates remain side-by-side).
    • Unequal crossing over generates gene families.
  • Epistasis

    • The B gene controls black (B_) vs. brown (bb) color, while the E gene controls yellow (ee) color.
    • Genes may also oppose each other with one gene modifying the expression of another.
    • Often the biochemical basis of epistasis is a gene pathway in which the expression of one gene is dependent on the function of a gene that precedes or follows it in the pathway.
    • In this case, the C gene is epistatic to the A gene.
    • Thus, the C gene is epistatic to the A gene.
  • Protein Folding, Modification, and Targeting

    • For example, cystic fibrosis is caused by defects in a membrane-bound protein called cystic fibrosis transmembrane conductance regulator (CFTR).
    • The most common cystic fibrosis-causing mutation is the deletion of a Phe residue at position 508 in CFTR, which causes improper folding of the protein.
  • Altered Gene Expression in Cancer

    • Cancer, a disease of altered gene expression, is the result of gene mutations or dramatic changes in gene regulation.
    • Cancer can be described as a disease of altered gene expression.
    • There are many proteins that are turned on or off (gene activation or gene silencing) that dramatically alter the overall activity of the cell.
    • This can be the result of gene mutation or changes in gene regulation (epigenetic, transcription, post-transcription, translation, or post-translation).
    • It can bind to sites in the promoters of genes to initiate transcription.
  • Tracking Cells with Light

    • In molecular biology, researchers use a reporter gene that they attach to a regulatory gene of interest.
    • Reporter genes ideally have distinguishable properties that can be easily detected and measured.
    • To introduce a reporter gene into an organism, scientists place the reporter gene and the gene of interest in the same DNA construct to be inserted into the cell or organism.
    • It is important to use a reporter gene that is not natively expressed in the cell or organism under study, since the expression of the reporter is being used as a marker for successful uptake of the gene of interest.
    • Reporter gene used as an indication of the regulatory sequence expression in the cell.
  • Epigenetic Alterations in Cancer

    • Silencing genes through epigenetic mechanisms is very common in cancer cells and include modifications to histone proteins and DNA that are associated with silenced genes.
    • When these modifications occur, the gene present in that chromosomal region is silenced.
    • In cancer cells, silencing genes through epigenetic mechanisms is a common occurrence.
    • Mechanisms can include modifications to histone proteins and DNA associated with these silencing genes.
    • Describe the role played by epigenetic alterations to gene expression in the development of cancer
  • Gene Duplications and Divergence

    • Gene duplication is the process by which a region of DNA coding for a gene is copied.
    • Duplicate genes are often immune to the selective pressure under which genes normally exist.
    • Many retrogenes display changes in gene regulation in comparison to their parental gene sequences, which sometimes results in novel functions.
    • This can apply to genes and proteins, such as nucleotide sequences or protein sequences that are derived from two or more homologous genes.
    • Both orthologous genes (resulting from a speciation event) and paralogous genes (resulting from gene duplication within a population) can be said to display divergent evolution.
  • Reporter Fusions

    • A reporter fusion is the hybrid of a gene or portion of a gene with a tractable marker.
    • In molecular biology, a reporter gene (often simply reporter) is a gene that researchers attach to a regulatory sequence of another gene of interest in bacteria, cell culture, animals, or plants .
    • To introduce a reporter gene into an organism, scientists place the reporter gene and the gene of interest in the same DNA construct to be inserted into the cell or organism.
    • In these cases the reporter is directly attached to the gene of interest to create a gene fusion.
    • In molecular biology, a reporter gene (often simply reporter) is a gene that researchers attach to a regulatory sequence of another gene of interest in bacteria, cell culture, animals, or plants
  • Variations in Size and Number of Genes

    • Nucleotide variation is measured for discrete sections of the chromosomes, called genes.
    • In humans, more proteins are encoded per gene than in other species.
    • M.leprae has lost many once-functional genes over time due to the formation of pseudogenes.
    • The repeat-rich regions contain genes coding for host interaction proteins.
    • This figure represents the human genome, categorized by function of each gene product, given both as number of genes and as percentage of all genes.
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