Mirko Rossi

Adjunct Professor in Zoonotic Bacteriology, Associate Professor (Tenure Track) in Environmental Hygiene

  • PL 66 (Agnes Sjöbergin katu 2), B426




Tutkimustuotoksia vuodessa

Henkilökohtainen profiili


During my degree in Doctor in Veterinary Medicine (1996-2002), I specialized in Clinical Veterinary Microbiology under the supervision of Professor Valeria Sanguinetti (University of Bologna). In my PhD (2005 - 2008), I investigated diagnostics methods and taxonomy of Campylobacter and Helicobacter species, and their prevalence in several animal hosts. I published a total of 10 papers and my thesis focused on investigating the prevalence of Helicobacter pullorum in poultry. In addition, I described two novel Campylobacter species in rabbit and poultry.

During my postdoctoral fellowship (2008 - 2012) I trained in bacterial genomics and bioinformatics, which became the main tools of my recent research activities. My postdoctoral fellowship has dedicated particularly on unveiling the molecular mechanisms associated to the zoonotic transmission of animal Helicobacter species using modern comparative genomics techniques and functional genetics, resulted in 13 published papers. The main targets of these studies were: the sialylated surface structures of H. bizzozeronii and their interaction with the human host; short term evolution of non-pylori Helicobacter spp. in the human stomach; the genomic features involved in Helicobacter, evolution, host interaction and host-jump. During my postdoctoral fellowship I established international collaborations with several research groups around the words. The collaboration with University of Gent (Belgium) on comparative genome analysis, population genetics and functional genomics of animal gastric Helicobacter species is still ongoing.

Since I started my tenure track fellowship (2013) at University of Helsinki, I moved my attention to Campylobacter species by developing my own research and group. Exploiting the competences acquired during my post-doctoral fellow, I focused my recent research on the following topics: Genomic epidemiology and applied bioinformatics; experimental evolution; glycobiology.


Tutkimuksen ja opetuksen kuvaus


In Finland, as in most countries, the true impact of foodborne and waterborne diseases (FWD) is unknown. To prioritize food safety and environmental health interventions aimed to reduce the burden of FWDs, it is necessary to improve our knowledge in the ecology of the FWD pathogens and to reveal the molecular mechanisms regulating pathogen evolution and its interaction with the hosts.

Therefore, our research is focused on the following topics.

Genomic epidemiology and applied bioinformatics. Genomic epidemiology is a novel discipline which combines next-generation sequencing (NGS) data and statistical genomics to investigate the epidemiology of infectious diseases. We apply modern genomic methodology for exploring the complex epidemiology and ecology of Campylobacter jejuniCampylobacter coli, Yersinia enterocolitica, and pathogenic E. coli. These analyses generate increasing amounts of data that require understanding of advance computational methods. Bioinformatics, data mining, and biostatistics are therefore essential disciplines for the future of our research and teaching. Nevertheless, the routine and widespread application of modern genomic analysis for public health protection is still restricted by the absence of an accessible IT framework, and by the limited skills of the personnel involved in the surveillance of food- and water-borne diseases (from laboratory technicians and public health microbiologists to epidemiologists and physicians) in handling these novel methodologies. Therefore, advances in bioinformatics and bacterial genomics must encounter the needs of public health microbiology. In close collaboration with several international institutions, we are developing and validating novel bioinformatics solutions for high throughput sequencing data analysis and visualization applied to microbial typing; to guarantee that smaller players and end-users in the field can exploit NGSfor surveillance of food-borne diseases.

Experimental evolution. Assessing the genomic diversity in Campylobacter jejuni population is critical for deducing whether genomic differences between any two isolates are sufficiently small to assume a high likelihood of epidemiological relatedness. However, the evolutionary mechanisms and ecological conditions maintaining this diversity remain obscure. A key piece towards resolving this puzzle is the accurate assessment of mutation rates and the molecular spectrum of mutational events in C. jejuni. Yet, neither long-term evolutionary studies nor studies on the evolutionary change over time in a natural population setting are currently available for this important pathogen. Moreover, recombination plays a dominant role in the evolution of this bacterial pathogen, but its dynamics remain only partly understood. By applying high throughput sequencing technology to experimentally evolved C. jejuni strains, we aim to generate an unbiased direct estimate of the spectrum and rate of spontaneous mutations accumulated in a neutral environment, and to define evolution dynamics during adaptation. In addition we are investigating chromosomal integration patterns after natural transformation by combining NGS analysis and in vitro transformation system.

Glycobiology. Glycans decorate nearly all proteins in the host body, respond rapidly and dramatically to inflammatory cues, and have been centrally implicated in regulating the immune response. In addition, glycans decorate the external surface of all bacteria and contribute substantially in the interaction with the host and predators, being therefore subjected to strong environmental selection. With the advent of new technologies, and a great interest in the intersection of glycobiology and immunology, significant advances in understanding how glycosylation may allow pathogens to subvert the immune system or to serve as targets for the immune system are currently being accomplished. We are focusing on elucidating molecular mechanisms behind the biosynthesis of glycan structures in Campylobacter coli and their role in host response during infections.


Veterinary Medicine. Environmental Health course discusses key environmental issues that have a direct impact on human health. Topics include: waterborne disease epidemiology; treatment and quality of drinking and bathing water; environmental impact of solid waste and waste water; indoor and outdoor air quality and their effect on human health; health impact of soil pollution; the scientific basis for policy decisions; and emerging global environmental health problems.

Postgraduate courses. We are involved intensely in the organization of courses for PhD students under the umbrella of the Doctoral school in environmental, food, and biological sciences (YEP). Our courses are mainly focusing on: molecular epidemiology, bacterial genomics, and bioinformatics.

Koulutus / tieteellinen pätevyys

Veterinary Medicine, PhD, Doctoral programme in Epidemiology and control of Zoonoses, Univ Bologna, University of Bologna

Myöntöpäivä: 8 toukok. 2008

Food Science, Master I level, Quality Assurance Manager for Food Laboratory, University of Milan

Myöntöpäivä: 30 syysk. 2003

Veterinary Medicine, Doctor in Veterinary Medicine, Univ Bologna, University of Bologna

Myöntöpäivä: 9 lokak. 2002


  • 1183 Kasvibiologia, mikrobiologia, virologia
  • 413 Eläinlääketiede

Kansainvälinen ja kotimainen yhteistyö

Viimeisin maa-/aluetasolla toteutettu yhteistyö. Saat tarkempia lisätietoja pisteitä napauttamalla, tai
  • INNUENDO whole genome and core genome MLST schemas and datasets for Campylobacter jejuni

    Rossi, M. (Luoja), Da Silva, M. S. (Avustaja (contributor)), Ribeiro-Gonçalves, B. F. (Avustaja (contributor)), Nuno Silva, D. (Avustaja (contributor)), Machado, M. P. (Avustaja (contributor)), Oleastro, M. (Avustaja (contributor)), Borges, V. (Avustaja (contributor)), Isidro, J. (Avustaja (contributor)), Viera, L. (Avustaja (contributor)), Barker, D. O. R. (Avustaja (contributor)), Llarena, A. (Avustaja (contributor)), Halkilahti, J. (Avustaja (contributor)), Jaakkonen, A. (Avustaja (contributor)), Kivistö, R. (Avustaja (contributor)), Kovanen, S. (Avustaja (contributor)), Nieminen, T. (Avustaja (contributor)), Hänninen, M. (Avustaja (contributor)), Salmenlinna , S. (Avustaja (contributor)), Hakkinen, M. (Avustaja (contributor)), Garaizar , J. (Avustaja (contributor)), Bikandi, J. (Avustaja (contributor)), Hilbert, F. (Avustaja (contributor)), Taboada, E. N. (Avustaja (contributor)) & Carrico, J. A. (Avustaja (contributor)), Zenodo, heinäk. 2018


  • Vuoden tieteellinen artikkeli 2021

    Olkkola, Satu (Vastaanottaja), Rossi, Mirko (Vastaanottaja), Jaakkonen, Anniina (Vastaanottaja), Simola, Maria (Vastaanottaja), Tikkanen, Jouni (Vastaanottaja), Hakkinen, Marjaana (Vastaanottaja), Tuominen, Pirkko (Vastaanottaja), Huitu, Otso (Vastaanottaja), Niemimaa, Jukka (Vastaanottaja), Henttonen, Heikki (Vastaanottaja) & Kivistö, Rauni (Vastaanottaja), 15 marrask. 2022

    Palkinto: Palkinnot ja kunnianosoitukset