BOL: Related items

Bioinformatics in Africa: Part2 - Kenya

BioStar — Sat, 06 Feb 2021 13:23:54 -0600

International Livestock Research Institute (ILRI):

Under a NEPAD initiative, the Biosciences Eastern and Central Africa (BECA) (www.biosciencesafrica.org) was established at ILRI. BECA consists of a hub, regional nodes, and other affiliated laboratories and partner institutes. A state of the art joint Bioinformatics Platform (www.becabioinfo.org), whose overall goal is to provide a coherent and powerful bioinformatics infrastructure for use by all scientists in East and central Africa. The Platform goal requires both physical and intellectual developments that together provide researchers with access to diverse infrastructure in a widearea network, thereby addressing four important aspects of bioinformatics:

1) Science: bioinformatics tools for data integration and visualization, standardization of data formats and data analysis strategies, and distribution of analysis tasks over local and widearea networks are in development;

2) Bioinformatics Support Facility: provides assistance and custom programming to projects and those unable to establish a bioinformatics support function intrinsic to their project due to shortage of qualified personnel or lack of funding;

3) Hardware Platform: provide a powerful high performance computing platform capable of handling the largest analysis needs for projects;

4) Bioinformatics Training for East and central African scientists: While many Webbased tools are available to the wetlab researcher, the Web is not well suited for tasks beyond singlesequence annotation. Researchers need to become productive in a serverbased Unix environment with its wealth of scripting and automation tools. Even at an entrylevel, this can be an intimidating task if proper guidance is not available.

International Centre of Insect Physiology and Ecology (ICIPE): ICIPE’s research focus is on insect biology, in order to improve the wellbeing of the peoples of the tropics through insect science. There is a commitment to utilise contemporary science in order to limit the impact of disease vectors, and agricultural pests. The understanding of the mechanisms associated with behaviour (e.g. attraction and repellency) is crucial. ICIPE seeks to enhance its bioinformatics capacity in order to support data from various EST projects designed to gain insights into the insect ecology and plant pathogen interactions though studies of metabolic pathways associated with production of all elochemicals.

Longterm training activities:

Kenyatta University: An introductory course in Bioinformatics is offers to MSc Biotechnology students. This comprises of 35 hours of lectures and practicals.

University of Nairobi: A centre for Biotechnology and Bioinformatics (CEBIB), which will offer postgraduate training (diplomas, MSc and PhD) in areas of biotechnology and bioinformatics has recently been launched. Other universities in Kenya, including Egerton, Maseno and the Jomo Kenyatta University of Agriculture and Technology offer introductory courses to undergraduates in biomedical sciences. In addition, under the BECA platform MSc and PhD fellowships are being made available for Bioinformatics students. ILRI is forging links with Universities in South Africa and the United Kingdom to provide access to courses and training material.

Research Interest and Activities:

The following are the present areas of research interest: 1. EST clustering 2. Genome sequencing and annotation 3. Functional genomics and proteomics (including key tropical pathogens) 4. Structural bioinformatics 5. Development of Bioinformatics Data Management Systems 6. Gene Mining 7. High Throughput Genotyping 8. Microarray data management and analysis 9. Metagenomics 10. Immunoinformatics 11. Hostpathogen interaction 12. High performance computing and grid development 13. Parasite transfection technologies 14. Cell cycle regulation 15. Population genetics 16. Vector genomics 17. Drug, vaccine and diagnostic target discovery

Bioinformatics in Africa: Part7 - Tunisia

BioStar — Sat, 06 Feb 2021 21:25:09 -0600

Institut Pasteur de Tunis (IPT):
The IPT is a research institution founded in 1883. IPT is under the supervision of the Ministry of Health and is part of the Université El Manar of Tunis (Ministry of high Education). The missions of the institute are: Public Health Laboratory activities (PHL), Research on infectious diseases, and R/D on vaccines. Research programs are mainly oriented towards local health problems such as leishmaniais, viral hepatitis, and scorpion venoms. The group of Bioinformatics and Modelling of the IPT is hosted by the Laboratoire d’Immunopathologie Vaccinologie et Génétique Moléculaire (LIVGM), and exists since the beginning of 2005. Its present research activities include: genome annotation, EST clustering and modelling of the host/parasite response to Leishmania infection. It consists of two senior scientists, two PhD students and one MSc student

Centre de Biotechnology de Sfax (CBS):
Bioinformatics activity started at CBS in 2001 with the settingup of a research and service unit of bioinformatics. This unit currently includes one senior researcher, one engineer and four Phd students. Activities include sequence annotation (service) and three research programs: ab initio prediction of short eukaryote genes, statistical modelling by Bayesian networks approach of signal transduction pathways and statistical analysis of human sequence variation data (haplotype reconstruction and linkage disequilibrium). Activities of the Bioinformatics unit could be found at the website: http://www.cbs.rnrt.tn/ and the research activity report is available under request to Bioinformatics@cbs.rnrt.tn. Although the computing facilities are good, there is still a need for trained human resources to strengthen bioinformatics capacities at CBS, particularly in structural bioinformatics.

Web site and links: http://www.cbs.rnrt.tn

Human Genome Meeting 2014, Geneva, Switzerland

Fri, 20 Sep 2013 12:36:44 -0500

The spectacular advances of the last few years resulted in the rapid analysis of the genome sequence of each individual. The biomedical world is now faced with the enormous challenges of assigning pathogenicity to each genomic variant, the functional analysis of the genome of each individual, and the accurate and detailed phenotypic characterization. Advances in these challenges are likely to fundamentally change the medical practice in a global scale.

This 2014 HUGO Meeting in Geneva will be a Forum for discussions on innovative approaches, and proposals to tackle the anticipated challenges.

Time : 27 April 2014 - 30 April 2014

For enquiries, please email hugo2014@mci-group.com or visit www.hugo-international.org

More at http://www.hgm2014-geneva.org/

Cáceres Lab

Sat, 02 Oct 2021 00:20:42 -0500

Lab are included within the Genomics, Bioinformatics and Evolution group of the UAB, and collaborate closely with other researchers in the Barcelona area, such as Xavier Estivill of the Centre for Genomic Regulation (CRG), Juan R González of the Centre for Research in Environmental Epidemiology (CREAL), and Tomàs Marqués-Bonet of the Institute of Evolutionary Biology (IBE), as well as with other international groups and projects.

https://grupsderecerca.uab.cat/cacereslab/

lsugenomics Lab

Thu, 07 Jul 2022 05:26:37 -0500

In our lab, we seek to characterize and to compare genomes in order to better understand genetic and evolutionary processes linking genotypes to phenotypes.

Sequencing and decoding plant genomes have been integral in our approaches.

The overarching goal of our research is to understand how to interpret complex and fascinating messages embedded in genomes.

https://www.lsugenomics.org/

04- Informatics Approach to Cancer - Interview with Dr. Joel Saltz

Mon, 07 Oct 2013 14:35:43 -0500

For additional information visit http://www.cancerquest.org/joel-saltz-interview. Dr. Joel Saltz is a Professor in the Departments of Pathology, Biostatistics and Bioinformatics, and Mathematics and Computer Science at Emory University. Dr. Saltz's research on bioinformatics spans several disciplines. One project involves applying computer analysis to medical imaging to yield better results for patients. As an example, a computer program may able to help doctors detect small cancers in a CT scan or mammogram. In this interview segment, Dr. Saltz discusses the informatics approach to cancer. To learn more about cancer and watch additional interviews, please visit the CancerQuest website at http://www.cancerquest.org.

Bioinformatics Training Collections !

BioStar — Sun, 05 Mar 2023 23:01:26 -0600

Useful list of bioinformatics training collections @ https://github.com/sib-swiss/training-collection

Address of the bookmark: https://github.com/sib-swiss/training-collection

Evolution and Cancer

Fri, 27 Sep 2013 11:28:49 -0500

Air date: Wednesday, January 04, 2012, 3:00:00 PM Time displayed is Eastern Time, Washington DC Local Category: Wednesday Afternoon Lectures Description: There is a broad consensus that cancer is the result of somatic cells having serially gained, by a series of mutations, the ability to grow independently, to recruit resources from the circulation and the stroma, to invade local tissues, and to found anatomically distant metastases, ultimately killing the host. From the point of view of the cancer-causing somatic cell population, this is evolution driven by mutation and selection. Genomics has resulted in a parallel consensus that the central functions of all eukaryotes are highly conserved, not only at the level of individual protein functions, but also complex biological pathways and systems. These ideas motivated a comparison between results of molecular genetic studies of experimental evolution in yeast and the molecular genetic phenomena associated with tumorigenesis and tumor progression. We find some very striking similarities, including recurring genomic rearrangements, alterations of the regulation of specific growth-promoting genes, population-genetic features that affect the fitness trajectories of growth rate variants in evolving populations, and physiological and metabolic similarities derived from the conservation of the basic plan of growth and cell multiplication among all eukaryotes. It is hoped that some of the insights from yeast will aid the interpretation of sequence changes found in tumors, especially in the urgent necessity to distinguish 'driver' from 'passenger' mutations." David Botstein's fundamental contributions to modern genetics include the development of genetic methods for understanding biological functions and the discovery of the functions of many yeast and bacterial genes. In 1980, Botstein and three colleagues proposed a method for mapping human genes that laid the groundwork for the Human Genome Project. The basic principle of the mapping scheme was to develop, by recombinant DNA techniques, random single-copy DNA probes capable of detecting DNA sequence polymorphisms when hybridized to restriction digests, or specific fragments, of an individual's DNA. The method was used in subsequent years to identify several human disease genes, such as Huntington's and BRCA1. Variations of this method enabled the sequencing phase of the Human Genome Project. In the 1990s Botstein, having moved to Stanford University School of Medicine, collaborated with Patrick O. Brown of Stanford in exploiting DNA microarrays to study genome-wide gene expression patterns in yeast and in human cancers. This required developing a new statistical method and graphical interface, widely used today to interpret genomic data. Botstein also has helped to create, with Michael Ashburner and Gerald Rubin, a bioinformatics initiative to unify the representation of gene and gene product attributes across all species, called Gene Ontology. He graduated from Harvard College and earned his doctorate from the University of Michigan. He worked at Massachusetts Institute of Technology from 1967 to 1988; served as vice president for science at Genentech from 1988 to 1990; chaired the Department of Genetics at the Stanford University School of Medicine from 1990 to 2003; and joined the Princeton University faculty in 2003. He has sat on numerous editorial boards and was the founding editor of Molecular Biology of the Cell. Among recent major awards, Bostein won the Peter Gruber Foundation Prize in Genetics in 2003, the Apple Science Innovator Award in 2008, and the Albany Medical Center Prize in 2010. The NIH Wednesday Afternoon Lecture Series includes weekly scientific talks by some of the top researchers in the biomedical sciences worldwide. For more information, visit: The NIH Director's Wednesday Afternoon Lecture Series Author: Dr. David Botstein, Princeton University Runtime: 00:59:58 Permanent link: http://videocast.nih.gov/launch.asp?17046

Bioinformatics Opening at NIBMG, India

Sun, 03 Dec 2023 00:16:59 -0600

NIBMG is looking for motivated and bright individuals interested to explore career
opportunities for the position of Research Associate (Project Linked Person) for extramural
project funded by ICMR as per details given below.
Project Name: Fast detection of driver mutations and genes from cancer genomics data using
an integrative machine learning-based approach.

More at https://www.nibmg.ac.in/uploads/3c5d4da3fb31bef490a218805408c858.pdf

Postdoc at UBasel Comparative Single Cell Genomics

Fri, 13 Dec 2024 12:46:19 -0600

A fully funded 4-year Postdoc position is available in the lab of Patrick
Tschopp at the University of Basel, Switzerland, study the molecular and
tissue-scale dynamics during the embryonic formation of the vertebrate
skeleton and compare it across different vertebrate species with distinct
habitats.

We are looking for a highly motivated candidate with a PhD degree in
Bioinformatics or a related field. Candidates are expected to have a
strong background in evolutionary biology and/or comparative functional
genomics. Additional experiences in single cell functional genomics
analyses, statistics and computational data analyses are a plus, as is
an interest in comparative developmental (EvoDevo) questions.

We offer a dynamic and interactive research environment with state-of-the
art research facilities, good research funding and internationally
competitive salaries.

The Tschopp lab (www.evolution.unibas.ch/tschopp/research/)
studies the gene regulatory mechanisms of cell type
specification and evolution in vertebrates. See also our
preprints at https://doi.org/10.1101/2024.03.26.586769 and
https://doi.org/10.1101/2024.11.28.625862 Applications should include
a motivation letter, a CV, a list of publications, a statement about
research interests, as well as the names and contact details of at
least two referees. Applications (in the form of a single .pdf file)
should be sent to Patrick Tschopp (patrick.tschopp@unibas.ch); review
of applications will begin on January 1st 2025, and will continue until
the position is filled.