Seqanswers Leaderboard Ad

Collapse

Announcement

Collapse
No announcement yet.
X
 
  • Filter
  • Time
  • Show
Clear All
new posts

  • Postdoctoral in Bioinformatics, Deep Learning, Single Cell Omics @ UTHealth

    DESCRIPTION

    Postdoctoral positions are available in Dr. Zhongming Zhao's Bioinformatics and Systems Medicine Laboratory (BSML, http://www.uth.edu/bioinfo/), Center for Precision Health, School of Biomedical Informatics, University of Texas Health Science Center at Houston (UTHealth). The successful candidate is expected to join an established bioinformatics team. The ongoing projects in BSML focus on precision medicine, functional roles of genetic variants in complex disease, next-generation sequencing and single cell omics, deep learning, and regulatory networks. Integrative genomics and deep learning approaches are often applied. Funding (multiple NIH grants, CPRIT, and lab/center/professorship startup) is available to support this position for 3+ years and promotion to faculty positions is possible. The candidate will have the opportunity to access many high throughput datasets and interact with investigators across UTHealth and Texas Medical Center. The lab is highly productive (>350 papers since 2009) and has an excellent post-doctoral training track record (e.g. 24 former postdocs are currently faculty members, two received Young Investigator Awards from national foundations, two received CPRIT Scholar faculty recruitment, one NIH K99 awardee, one received NIH MIRA grant, and three were finalists for the Vanderbilt University Postdoc of the Year Award). Recent publications appeared or accepted in journals such as Nature, Nature Medicine, Nature Neurosciences, Nature Communications, Nature Machine Intelligence, Cancer Discovery, Genome Research, Genome Biology, Genome Medicine, NAR, Advances Science, GigaScience, etc.

    The BSML lab is part of the new Center for Precision Health (CPH), a joint enterprise by the School of Biomedical Informatics and School of Public Health, The University of Texas Health Science Center at Houston. The center is established in UTHealth in response to the emerging need of precision health and artificial intelligence. The center focuses on precision cancer medicine, pharmacogenomics, deep learning, and translational bioinformatics. UTHealth is part of the world-renowned Texas Medical Center located in cosmopolitan Houston, Texas, the fourth largest city in the United States. SBMI is the first School of its kind and one of the largest biomedical informatics programs in the country.

    REQUIREMENTS

    The qualified candidates should be highly motivated in research and have a Ph.D. in bioinformatics, quantitative science, computational biology, genetics, molecular biology, pharmacology, or related field upon the job start date. The successful candidate should have some experience in analyzing high-throughput genomic data and proven skills in at least one programming language (e.g., Perl, Python, R, or C/C++). Good understanding of genetics or molecular biology is a plus, but not required. For more information about our research, please visit the web site http://www.uth.edu/bioinfo/.

    COMPENSATION

    Salary and Benefits: Salary are commensurate with the NIH pay level, and can be higher with strong research experience. Promotion to other positions is available too. All postdocs are provided with the benefits according to the university standard (medical and dental insurance, retirement, etc.).

    LOCATION

    Center for Precision Health, School of Biomedical Informatics, The University of Texas Health Science Center at Houston

    HOW TO APPLY

    Applicants should send a CV and reference to:
    Zhongming Zhao (zhongming.zhao[at]uth.tmc.edu)
    Chair, Precision Health
    Professor and Director, Center for Precision Health
    University of Texas Health Science Center at Houston

Latest Articles

Collapse

  • seqadmin
    Non-Coding RNA Research and Technologies
    by seqadmin




    Non-coding RNAs (ncRNAs) do not code for proteins but play important roles in numerous cellular processes including gene silencing, developmental pathways, and more. There are numerous types including microRNA (miRNA), long ncRNA (lncRNA), circular RNA (circRNA), and more. In this article, we discuss innovative ncRNA research and explore recent technological advancements that improve the study of ncRNAs.

    Nobel Prize for MicroRNA Discovery
    This week,...
    10-07-2024, 08:07 AM
  • seqadmin
    Recent Developments in Metagenomics
    by seqadmin





    Metagenomics has improved the way researchers study microorganisms across diverse environments. Historically, studying microorganisms relied on culturing them in the lab, a method that limits the investigation of many species since most are unculturable1. Metagenomics overcomes these issues by allowing the study of microorganisms regardless of their ability to be cultured or the environments they inhabit. Over time, the field has evolved, especially with the advent...
    09-23-2024, 06:35 AM

ad_right_rmr

Collapse

News

Collapse

Topics Statistics Last Post
Started by seqadmin, Today, 06:35 AM
0 responses
7 views
0 likes
Last Post seqadmin  
Started by seqadmin, Yesterday, 02:44 PM
0 responses
7 views
0 likes
Last Post seqadmin  
Started by seqadmin, 10-11-2024, 06:55 AM
0 responses
15 views
0 likes
Last Post seqadmin  
Started by seqadmin, 10-02-2024, 04:51 AM
0 responses
111 views
0 likes
Last Post seqadmin  
Working...
X