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Tags: corn

The newly assembled genomes of 26 different genetic lines of corn illustrate the crop’s rich genetic diversity and lay the groundwork for a better understanding of what genetic mechanisms account for crop traits prized by farmers. The mapping of the 26 genomes, published recently in the journal Science, was a team effort co-led by University of Georgia’s Kelly Dawe that will help scientists piece together the puzzle of corn genetics.…
In a new paper published in the journal Cell, genetics professor Kelly Dawe solves a long-sought mystery: Modern genetics is based on the idea that genes are passed on to progeny in a predictable fashion, as first described by 19th-century Austrian botanist Gregor Mendel. He determined that genes exist in pairs, and each one of the two has an equal chance of being transmitted to the next generation. However, in rare exceptions, chromosomes…
Distinguished Research Professor Kelly Dawe in the department of genetics is principal investigator on a new project to sequence the genetic diversity of the world's largest cash crop: When the human genome was first sequenced in 2001, the project focused on a single individual. Since that time, several new genomes have been assembled and additional genetic data have been generated for thousands of individuals, producing a more complete picture…
Just last week, UGA hosted a symposium on Research Experiences for Undergraduates, a program that brought promising young researchers to campus for ten weeks this summer to work with and be mentored by some of our best faculty members. The theme of the first day's presentations was computational biology, and if you're curious about research pursuits within that confluence of disciplines, a new study demonstrates what it is quite well: Though it…
Through extraordinary imaging techniques and refined laboratory practices with a model organism, a UGA research team has published new evidence about the assembly of cell organelles in the human body: Defective cilia can lead to a host of diseases and conditions in the human body—from rare, inherited bone malformations to blindness, male infertility, kidney disease and obesity.  ...   a new study from University of Georgia cellular…
Polycystic kidney disease is one of the most common life-threatening genetic diseases, affecting an estimated 12.5 million people worldwide, and but one of multiple conditions researchers have connected to defective cilia. UGA researchers recenty published a study describing how cilia are constructed, findings based on new protein-level observations: Led by Karl Lechtreck, assistant professor in the department of cellular biology, a team of…

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