Gene E. Michaels Distinguished Professor in Medical Mycology Graduate Coordinator - Recruitment Adjunct faculty of Plant Biology, Infectious Diseases We investigate the molecular mechanisms of fungal pathogenesis, microbial development, targeted antifungal drug delivery, and vaccination (e.g. mRNA-LNP vaccines). We primarily use two diverged human fungal pathogens in our investigation: Cryptococcus neoformans and Aspergillus fumigatus (see images below). We seek to advance our knowledge about eukaryotic microbiology and identify better approaches for the preventation and treatment of fungal diseases. Please click "RESEARCH" below to read more about our research projects. Positions: Highly motivated and qualified individuals with strong interests in genetics, fungal immunology, and fungal biology & pathogenesis are encouraged to send your request about potential positions in Lin lab to Xiaorong.Lin@uga.edu (postdoctoral fellow, graduate student, or undergraduate researcher positions). Prior experience in fungal biology is not required. Potential Graduate Students: For individuals interested in becoming a graduate student in Lin lab, please apply for graduate admission through the Integrated Life Sciences/ILS umbrella program (https://ils.uga.edu/) or the Integrated Plant Sciences/IPS umbrella program (https://ips.uga.edu/). Education: Ph.D., Fungal Genetics and Molecular Biology (Plant Biology department), University of Georgia (2003) M.S., Chemical Engineering, Dalian Institute of Chemical Physics (1999) B.S., Chemical Engineering, Dalian University of Technology (1996) Service: Associate Editor: PLoS Genetics; PLoS Pathogens; mBio Director (2015-2019): MBL summer course on Molecular Mycology: Current Approaches to Fungal Pathogenesis Member (2019-2026): Fungal Genetics Policy Steering Committee Honors: American Association for the Advancement of Science (AAAS) Fellow American Academy of Microbiology (AAM) Fellow BWF Investigator in Pathogenesis of Infectious Disease, Burroughs Wellcome Fund ICAAC Young Investigator Award, American Society of Microbiology (ASM) Research Research Areas: Microbe-Host Interactions Molecular Microbiology Microbial Physiology Bioinformatics and -omics/Computational Biology Research Interests: Research in Lin laboratory focuses on medical mycology: We study the molecular mechanisms of fungal pathogenesis and microbial communication and development. We also seek to develop novel antifungal treatments and vaccines. We primarily use two diverged fungal pathogens in our investigation: Cryptococcus neoformans and Aspergillus fumigatus. The long-term goal of our research is to seek better approaches for the prevention and treatment of fungal diseases and to advance our knowledge about eukaryotic microbiology. Cryptococcus neoformans is the causative agent for cryptococcal meningitis. Cryptococcal meningitis is the most common fungal infection of the central nervous system (CNS) and the third most frequent neurological complication in AIDS patients. This disease claims hundreds of thousands of lives annually and is responsible for 15% of deaths in AIDS patients. Human infection is acquired by inhalation of airborne cryptococcal cells from environment and asymptomatic carriage of this fungus is common in the human population. Infection is typically cleared or dormant (latency). When the host immunity is compromised (due to HIV infection or organ transplant), dormant fungal cells can be reactivated and disseminate hematogenously to cause systemic infection, with a propensity to the CNS. We are interested in cryptococcal life cycle and how it contributes to the progression of cryptococcal disease. We are also interested in the molecular mechanisms underlying cryptococcal morphogenesis as morphotype is tightly linked to cryptococcal virulence. For instance, the filamentous form is attenuated in virulence and it promotes host protective immune-responses. We are exploring the possibility of using the filamentous strains or antigens presented in cryptococcal filaments as vaccine candidates. Investigating the signal transduction pathways that promote cryptococcal filamentation program may provide insights into novel means to mitigate cryptococcal pathogenesis. Aspergillus fumigatus is the causative agent of Aspergillosis, which varies from an allergic response, aspergillomas to severe invasive aspergillosis. A. fumigatus is a major threat to bone marrow and solid organ transplant patients worldwide. This fungus grows in the hyphal form and produces asexually by conidiation (the process of generating asexual spores). A person inhales hundreds or even thousands of A. fumigatus conidia daily. Melanin coated on conidia is critical for fungal survival both in the environment and in the host. Melanins are resistant bio-pigments and also an important secondary metabolite that confers resistance to radiation and other abiotic and biotic stresses. We are interested in understanding the regulation of melanin biosynthesis and cellular trafficking. In particular, we are focused on the mechanisms that regulate the subcellular compartmentalization of melanization. Compartmentalization of secondary metabolism in membrane-bound organelles is expected to confer several advantages. First, it concentrates multiple enzymes that need to function sequentially to produce these compounds (metabolic channeling). Second, enclosing substrates/precursors together with the enzymes in the same compartment facilitates enzymatic reactions. Third, sequestration of toxic compounds minimizes their potential damage to other cytoplasmic machinery. Lastly, it provides an efficient means to traffic and deliver charged compounds or macro-molecules across the plasma membrane. We are currently investigating the molecular mechanisms underpinning the subcellular regulation of fungal secondary metabolism pathways. Student Awards Graduate student Benjamin Chadwick won Paper of the Year Award. UGA Plant Biology. 2022 Graduate student Amber Matha won Outstanding Teaching Assistant award. UGA Center for Teaching and Learning. 2024 Graduate student Nhu Pham won the 2024 ARCS Foundation Scholarship (Achievement Rewards for College Scientists) https://arcsfoundation.org/ 2024 Graduate student Ran Shi won Dr. Juergen Wiegel Award. UGA Microbiology. https://mib.uga.edu/wiegel-award 2024 Linlab Alumni Amber Rae Matha (former PhD graduate student, currently a faculty at Wilson College) Benjamin Chadwick (former PhD graduate student, currently a postdoctoral fellow at University of Wisconsin-Madison) Yumeng Fan (former PhD graduate student, currently a postdoc at Chinese CDC) Fanglin Zheng (former postdoctoral fellow, currently a professor at the First Affiliated Hospital of Nanchang University) Jianfeng Lin (former PhD graduate student, currently a postdoc at UCLA medical school) Kenton Hipsher (former MS graduate student, currently a staff scientist at Zymergen) Bing Zhai (former PhD graduate student, currently a professor at Shenzhen Institute of Synthetic Biology, Chinese Academy of Sciences) Rachana Gyawali (former PhD graduate student, currently a senior staff scientist at North Carolina State Lab of Public Health) Linqi Wang (former postdoctoral fellow, currently a professor at Institute of Microbiology, Chinese Academy of Sciences) Nadia Chacko (former postdoctoral fellow, currently a scientist at LifeMine Therapeutics) Xiuyun Tian (former postdoctoral fellow, currently a staff scientist at Institute of Microbiology, Chinese Academy of Sciences) Xinping Xu (former postdoctoral fellow, currently a professor at the First Affiliated Hospital of Nanchang University) Yunfang Meng (former visiting MD/PhD student, currently a physician at Jianan Hospital) Srijana Upadhyay (former research associate, currently a research associate at Texas A&M Vet school) Labs (via personnel): Xiaorong Lin Labs: Lin Lab Of note: Lin lab, summer of 2018 Lin lab potluck 09/2018 Lin Lab, summer of 2022 Lin Lab, Fungal Genetics Conference, March 2022 Ben's Paper of the Year Award (PBIO)-Jan 2023 Lin Lab, Spring 2023 Ben and Xiaorong: UGA intercollegiate badminton tournament 2024 Linlab at Fungal Genetics Conference at Asilomar, CA. Spring 2024 Courses Regularly Taught: MIBO 8150 MIBO 4700/6700