South Africa
Healthcare Medical Research
Submit newsAdvertiseSubscribe
NewsPress Office NewsCompaniesJobsEventsPeopleMultimediaFeaturesOpinion
AdvertiseSubmit news

Industries

All industriesAgricultureAutomotiveConstruction & EngineeringEducationEnergy & MiningEntrepreneurshipESG & SustainabilityFinanceHealthcareHR & ManagementICTLegalLifestyleLogistics & TransportManufacturingMarketing & MediaPropertyRetailTourism & Travel

Features

BizTrendsCannes LionsPendoringEffie AwardsBizTrendsTVIMC ConferenceOrchids and OnionsThe Lead CreativeLoeries Creative WeekMore Sections..

In the news

MedshieldCatchwordsUniversity of PretoriaEnquire about a company Biz Press Office
Agriculture
Automotive
Construction & Engineering
Education
Energy & Mining
Entrepreneurship
ESG & Sustainability
Finance
Healthcare
HR & Management
ICT
Legal
Lifestyle
Logistics & Transport
Manufacturing
Marketing & Media
Property
Retail
Tourism & Travel

News

Industries

Companies

Jobs

Events

People

Video

Audio

Galleries

Submit content

My Account

Advertise with us

Trending

2 days 7 days 30 days By Industry

Subscribe & Follow

Advertise your job vacancies
    Post your Job Ad here >>
    Search jobs

    Research in the news: Yale researchers find human-specific gene that turns back cellular clock

    An exhaustive analysis of factors that allow mature cells to become like embryonic stem cells again has revealed a spliced form of a gene found only in primates that greatly aids the reprogramming of mature cells.
    By Bill Hathaway
    22 May 2015
    22 May 2015
    A colony of embryonic-like cells form after activation of a gene variant only found in humans, essentially reprogramming mature cells.
    A colony of embryonic-like cells form after activation of a gene variant only found in humans, essentially reprogramming mature cells.

    The discovery of a human-specific gene involved in such a fundamental process as the creation of a pluripotent cell, one that can become a variety of tissue types, surprised Yale researchers. The gene called CCNE1 is normally involved in cell cycling, but the variant CCNE1 does not appear to play that role and instead appears critical for reprogramming. It is also unclear why the gene is found only in in primate cells.

    The Yale team, led by geneticist In-Hyun Park, is studying how mature cells can be reprogrammed back to their embryonic state. The goal of the research is to better understand the processes of cell fate change and one day develop customized cell therapies for individual patients.

    The Yale team used a new form of transciptome analysis that allowed them to more fully explore impact of all types of RNA on cell reprogramming. The work will be published in 6 June 2015 issue of Stem Cell Reports.

    Source: Yale University

    Read more: gene therapy, Yale University, Bill Hathaway
    Share this article
    TopicsNext
    Top stories
    More news
    Let's do Biz