3D shape of leukemia cell’s genome retains essential to solving puzzle of human being diseases To resolve a puzzle, you have to recognize styles, patterns and a particular kind of order. In much the same way, researchers at McGill University can see that the 3D shape of a leukemia cell's genome holds an integral to solving the puzzle of individual diseases. The researchers record their findings in the open gain access to journal Genome Biology http://silagrahelp.com/contact-us . McGill professor Jos-e Dostie, a researcher in the Faculty of Medicine in the section of Biochemistry, focused on the shape created by the region spanning the Homeobox A genes in individual cells – – a set of 11 genes encoding proteins that are relevant to several types of cancers.
His research focus is on biopolymer engineering to comprehend structure-function relationships, with emphasis on studies related to self-assembly, biomaterials engineering and regenerative medication. He has published over 600 papers. He directs the NIH P41 Tissue Engineering Resource Center which involves Tufts University and Columbia University. He acts of the editorial boards of numerous journals, offers been Associate Editor for Biomacromolecules since its inception, and may be the Chief and Editor of the journal ACS Biomaterials Science and Engineering. He has received several awards for teaching, was Elected Fellow American Institute of Medical and Biological Engineering and the Society for Biomaterials Clemson Award for contributions to the literature..