BACKGROUND: The identification of cellular targets has traditionally been the starting point for natural product mode of action studies and has led to the understanding of many biological processes. Conventional experimental approaches have depended on cell-based screening and/or affinity chromatography. Although both of these techniques aid in the discovery of protein cellular targets, a method that couples protein identification with gene isolation would be extremely valuable. RESULTS: A procedure for the direct cloning of cellular proteins, based on their affinity for natural products, using cDNA phage display has been developed. The technique is referred to as display cloning because it involves the cloning of proteins displayed on the surface of a bacteriophage particle. The approach has been established by isolating a full-length gene clone of FKBP12 (FK506-binding protein) from a human brain cDNA library using a biotinylated FK506 probe molecule. During the affinity selection, the FKBP12 gene emerged as the dominant library member and was the only sequence identified after the second round of selection. CONCLUSIONS: The development of display cloning greatly facilitates the investigation of ligand-receptor interaction biology and natural product mode of action studies. This procedure utilizes heterologous protein display on infectious phage, which allows the amplification and repeated selection of putative sequences, leading to unambiguous target identification. In addition, the direct connection of a functional protein to its gene sequence eliminates the subsequent cloning step required with tissue homogenate or cell lysate affinity methods, allowing direct isolation of an expressible gene sequence.
BACKGROUND: The identification of cellular targets has traditionally been the starting point for natural product mode of action studies and has led to the understanding of many biological processes. Conventional experimental approaches have depended on cell-based screening and/or affinity chromatography. Although both of these techniques aid in the discovery of protein cellular targets, a method that couples protein identification with gene isolation would be extremely valuable. RESULTS: A procedure for the direct cloning of cellular proteins, based on their affinity for natural products, using cDNA phage display has been developed. The technique is referred to as display cloning because it involves the cloning of proteins displayed on the surface of a bacteriophage particle. The approach has been established by isolating a full-length gene clone of FKBP12 (FK506-binding protein) from a human brain cDNA library using a biotinylated FK506 probe molecule. During the affinity selection, the FKBP12 gene emerged as the dominant library member and was the only sequence identified after the second round of selection. CONCLUSIONS: The development of display cloning greatly facilitates the investigation of ligand-receptor interaction biology and natural product mode of action studies. This procedure utilizes heterologous protein display on infectious phage, which allows the amplification and repeated selection of putative sequences, leading to unambiguous target identification. In addition, the direct connection of a functional protein to its gene sequence eliminates the subsequent cloning step required with tissue homogenate or cell lysate affinity methods, allowing direct isolation of an expressible gene sequence.
Authors: Brett Lomenick; Rui Hao; Nao Jonai; Randall M Chin; Mariam Aghajan; Sarah Warburton; Jianing Wang; Raymond P Wu; Fernando Gomez; Joseph A Loo; James A Wohlschlegel; Thomas M Vondriska; Jerry Pelletier; Harvey R Herschman; Jon Clardy; Catherine F Clarke; Jing Huang Journal: Proc Natl Acad Sci U S A Date: 2009-12-07 Impact factor: 11.205
Authors: Bryan D Yestrepsky; Colin A Kretz; Yuanxi Xu; Autumn Holmes; Hongmin Sun; David Ginsburg; Scott D Larsen Journal: Bioorg Med Chem Lett Date: 2014-02-07 Impact factor: 2.823
Authors: Hyunsoo Kim; Liu Deng; Xin Xiong; William D Hunter; Melissa C Long; Michael C Pirrung Journal: J Med Chem Date: 2007-06-27 Impact factor: 7.446
Authors: Erik J Slootweg; Hans J H G Keller; Mark A Hink; Jan Willem Borst; Jaap Bakker; Arjen Schots Journal: Nucleic Acids Res Date: 2006-10-13 Impact factor: 16.971