Bio-informatics technician
function in a work environment:
The Bio-informatics technician:
- applies mathematical calculation andprogramming tools and methods in order to understand, archive, process andanalyse biological datasets;
- combines aspects of genetics, molecularbiology and sequencing methods with bio-informatics in order to sequence,assemble, analyse and compare the function and structure of genomes;
- carries out these activities in variouscontexts: industrial, clinical, forensic, food-processing, environmental.
skills associated with the function:
The Bio-informatics technician possesses:
1) knowledge of genetics and molecularbiology;
2) detailed knowledge of the organisation andmethod of expression of eukaryote, prokaryote and viral genomes;
3) skills in mathematics, statistics,computer programming (Python, C, Pearl, R);
4) IT abilities in the analysis of nucleicacids, proteins and omic datasets and information deriving from the analysis ofbulk sequencing;
5) skills in the use of genetic sequencinginformation in clinical and healthcare environments;
6) skills in the use of genomic informationas a key to future technologies linked to food security and animal andvegetable genetic improvement;
7) skills in ecological investigations andthe predictive analysis of ecosystem behaviour using algorithms and modelsbased on genomics;
8) ability to implement genomic analyses insupport of legal investigations of various types.
career opportunities:
The profession of bio-informaticstechnician can be carried out in:
- National and international firms in theIT, biotechnology, biomedical, food-processing, pharmaceutical, environmentaland industrial sectors;
- National and international centres foradvanced diagnostics and/or applied research;
- National Health Service (Hospitals, LocalHealth Authorities, Animal Husbandry Institutes, Scientific Research and CareInstitutions involved in omic diagnosis);
- National and international dataprocessing centres;
- Legal contexts, as a consultant;
- National and international Universitiesand Pure and applied research centres.
Lastly, the degree in Genomics grantsaccess to Master degree programmes in biotechnology, genetics, molecular and cellularbiology as well as Master degree programmes in bio-informatics.
Computationalbiotechnologist
function in a work environment:
The Computational biotechnologist developsand applies theoretical methods, mathematical models and computational simulationtechniques in order to study and predict the behaviour of biological systemsand populations.
skills associated with the function:
The Computational biotechnologistpossesses:
1) knowledge of genetics, bio-chemistry andmolecular biology;
2) excellent skills in statistics andcomputer programming (Python, C, Pearl, R);
3) detailed knowledge of mathematicalmodelling;
4) specific practical abilities in thecomputational simulation and multi-scale modelling.
career opportunities:
The profession of computationalbiotechnologist can be carried out in
- National and international firms in theIT, biotechnology, biomedical, food-processing, pharmaceutical, environmentaland industrial sectors;
- National and international centres foradvanced diagnostics and/or applied research;
- National Health Service (Hospitals, LocalHealth Authorities, Animal Husbandry Institutes, Scientific Research and CareInstitutions involved in omic diagnosis);
- Regional, national and internationalenvironmental protection agencies;
- National and international Universitiesand Pure and applied research centres.
Lastly, the degree in Genomics grantsaccess to Master degree programmes in biotechnology, genetics, molecular andcellular biology as well as Master degree programmes in bio-informatics.
Systemsbiotechnologist
function in a work environment:
The Systems biotechnologist models thecomplex interactions of biological systems using an holistic approach in orderto determine the properties of circuits, networks and interactions in cells,tissue, organisms and populations.
skills associated with the function:
The Systems biotechnologist possesses:
1) knowledge of genetics, bio-chemistry andmolecular biology;
2) excellent skills in statistics andcomputer programming (Python, C, Pearl, R);
3) detailed knowledge of mathematicalmodelling;
4) specific practical abilities in thecomputational simulation and multi-scale modelling.
career opportunities:
The profession of systems biotechnologistcan be carried out in:
- National and international dataprocessing centres;
- Regional, national and internationalenvironmental protection agencies;
- National and international Universitiesand Pure and applied research centres.
Lastly, the degree in Genomics grantsaccess to Master degree programmes in biotechnology, genetics, molecular andcellular biology as well as Master degree programmes in bio-informatics.
GenomicsData Manager
function in a work environment:
The Genomics Data Manager:
- organises, looks after and administer thelaboratory datasets, managing the related IT systems;
- plans pipelines for the development ofbest practice protocols for the storage, back-up, organisation and publicationof genomic research data, including in the healthcare area in which the geneticsequencing information can help to improve the diagnosis and prognosis ofgenetic diseases, and the stratification of patients, as well as to identifythe best therapeutic treatment.
skills associated with the function:
The Genomics Data Manager possesses
1) detailed knowledge of the organisationand method of expression of eukaryote, prokaryote and viral genomes;
2) detailed bio-informatic abilities in theanalysis of nucleic acids, proteins and omic datasets and information derivingfrom the analysis of bulk sequencing;
3) specific skills in data mining and thequerying, organisation and management of genomic databases;
4) detailed knowledge of the regulationsand bio-ethical principles associated with the processing and management ofsensitive data.
career opportunities:
The profession of Genomics Data Manager canbe carried out in:
- National and international firms in theIT, biotechnology, biomedical, food-processing, pharmaceutical, environmentaland industrial sectors;
- National and international centres foradvanced diagnostics and/or applied research;
- National Health Service (Hospitals, LocalHealth Authorities, Animal Husbandry Institutes, Scientific Research and CareInstitutions involved in omic diagnosis;
- National and international dataprocessing centres;
- National and international Universitiesand Pure and applied research centres.
Lastly, the degree in Genomics grantsaccess to Master degree programmes in biotechnology, genetics, molecular andcellular biology as well as Master degree programmes in bio-informatics
