Recombinant rabbit monoclonal antibodies are produced using in vitro expression systems. The expression systems are developed by cloning in the specific antibody DNA sequences from immunoreactive rabbits. Then, individual clones are screened to select the best candidates for production. The advantages of using recombinant rabbit monoclonal antibodies include: better specificity and sensitivity, lot-to-lot consistency, animal origin-free formulations, and broader immunoreactivity to diverse targets due to larger rabbit immune repertoire.
ATP synthase is extremely conserved through evolution and can be found in plants, fungi, bacteria, and animals. The ATP synthase enzyme is a transmembrane protein responsible for driving the reversible reaction from ADP+ phosphate to ATP. This reaction is accomplished by a flux of protons across the membrane as a result of electron transfer. The ATP synthase protein has two main sections; the F1 ATP-ase (soluble) and the F0 ATP-ase (membrane embedded). The F1 section consists of the alpha, beta, gamma, delta, and epsilon subunits. While the F0 consists of a, b, and c subunits.
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Protein Aliases: ATP synthase F1 subunit beta; ATP synthase subunit beta, mitochondrial; ATP synthase, H+ transporting mitochondrial F1 complex, alpha subunit; ATP synthase, H+ transporting mitochondrial F1 complex, beta subunit; ATP synthase, H+ transporting, mitochondrial F1 complex, beta polypeptide; epididymis secretory protein Li 271; MGC5231; mitochondrial ATP synthase beta subunit; mitochondrial ATP synthase, H+ transporting F1 complex beta subunit; mitochondrial ATP synthetase, beta subunit
Gene Aliases: ATP5B; ATP5F1B; ATPMB; ATPSB; fj13e04; fj55c09; HEL-S-271; hm:zehn0534; im:6793121; wu:fj13e04; wu:fj38d01; wu:fj55c09; zgc:111961