Functional genomics

Definition

Functional genomics uses genomic data to study gene and protein expression and function on a global scale (genome-wide or system-wide), focusing on gene transcription, translation and protein-protein interactions, and often involving high-throughput methods.

Latest Research and Reviews

News and Comment

  • Comments and Opinion |

    Genetic variants have been associated with myriad molecular phenotypes that provide new insight into the range of mechanisms underlying genetic traits and diseases. Identifying any particular genetic variant's cascade of effects, from molecule to individual, requires assaying multiple layers of molecular complexity. We introduce the Enhancing GTEx (eGTEx) project that extends the GTEx project to combine gene expression with additional intermediate molecular measurements on the same tissues to provide a resource for studying how genetic differences cascade through molecular phenotypes to impact human health.

    • eGTEx Project
    • , Barbara E Stranger
    • , Lori E Brigham
    • , Richard Hasz
    • , Marcus Hunter
    • , Christopher Johns
    • , Mark Johnson
    • , Gene Kopen
    • , William F Leinweber
    • , John T Lonsdale
    • , Alisa McDonald
    • , Bernadette Mestichelli
    • , Kevin Myer
    • , Brian Roe
    • , Michael Salvatore
    • , Saboor Shad
    • , Jeffrey A Thomas
    • , Gary Walters
    • , Michael Washington
    • , Joseph Wheeler
    • , Jason Bridge
    • , Barbara A Foster
    • , Bryan M Gillard
    • , Ellen Karasik
    • , Rachna Kumar
    • , Mark Miklos
    • , Michael T Moser
    • , Scott D Jewell
    • , Robert G Montroy
    • , Daniel C Rohrer
    • , Dana R Valley
    • , David A Davis
    • , Deborah C Mash
    • , Sarah E Gould
    • , Ping Guan
    • , Susan Koester
    • , A Roger Little
    • , Casey Martin
    • , Helen M Moore
    • , Abhi Rao
    • , Jeffery P Struewing
    • , Simona Volpi
    • , Kasper D Hansen
    • , Peter F Hickey
    • , Lindsay F Rizzardi
    • , Lei Hou
    • , Yaping Liu
    • , Benoit Molinie
    • , Yongjin Park
    • , Nicola Rinaldi
    • , Li Wang
    • , Nicholas Van Wittenberghe
    • , Melina Claussnitzer
    • , Ellen T Gelfand
    • , Qin Li
    • , Sandra Linder
    • , Rui Zhang
    • , Kevin S Smith
    • , Emily K Tsang
    • , Lin S Chen
    • , Kathryn Demanelis
    • , Jennifer A Doherty
    • , Farzana Jasmine
    • , Muhammad G Kibriya
    • , Lihua Jiang
    • , Shin Lin
    • , Meng Wang
    • , Ruiqi Jian
    • , Xiao Li
    • , Joanne Chan
    • , Daniel Bates
    • , Morgan Diegel
    • , Jessica Halow
    • , Eric Haugen
    • , Audra Johnson
    • , Rajinder Kaul
    • , Kristen Lee
    • , Matthew T Maurano
    • , Jemma Nelson
    • , Fidencio J Neri
    • , Richard Sandstrom
    • , Marian S Fernando
    • , Caroline Linke
    • , Meritxell Oliva
    • , Andrew Skol
    • , Fan Wu
    • , Joshua M Akey
    • , Andrew P Feinberg
    • , Jin Billy Li
    • , Brandon L Pierce
    • , John A Stamatoyannopoulos
    • , Hua Tang
    • , Kristin G Ardlie
    • , Manolis Kellis
    • , Michael P Snyder
    •  & Stephen B Montgomery
  • News and Views |

    A global analysis of translation efficiency and RNA accumulation revealed that microRNAs in the unicellular green alga Chlamydomonas regulate target gene expression via RNA destabilization and translational repression like land plants and metazoans, yet in a different way.

    • Hiro-oki Iwakawa
    •  & Yukihide Tomari
    Nature Plants 3, 769–770
  • News and Views |

    Regulation of epigenetic factors through their recruitment to specific genomic regions is still poorly understood. A recent study demonstrates a global mechanism of tethering Polycomb group (PcG) proteins through sequence-specific DNA-binding factors.

    • Eduardo March
    •  & Sara Farrona
    Nature Genetics 49, 1416–1417