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Full Agenda Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Download PDF Program HERE < Back to Full Agenda Session V Structural mechanisms of AGPCR signaling and function Structural Determinants Of GAIN Domain Autoproteolysis And Cleavage Resistance Of Adhesion G Protein-Coupled Receptors Fabian Pohl Structural studies of the CELSR1 extracellular region reveal a compact multidomain module of fourteen domains which regulates signaling Sumit Bandekar Unveiling the GPS Cleavage Mechanism in ADGRL1 with QM/MM Florian Seufert Structural Determinants Of GAIN Domain Autoproteolysis And Cleavage Resistance Of Adhesion G Protein-Coupled Receptors Fabian Pohl Abstract "The GPCR autoproteolysis-inducing (GAIN) domain is a hallmark feature of adhe-sion G-protein coupled receptors (ADGRs), as this extracellular domain contains an integral agonistic sequence (Stachel) for activation via binding to the 7-transmembrane (7TM) helical domain of the receptor. Many ADGRs are autoproteo-lytically cleaved at the GPCR proteolysis site (GPS), an HXS/T motif within the GAIN domain. However, several ADGRs can be activated without GPS cleavage. We de-termined the crystal structure of the human ADGRB2/BAI2 hormone receptor (HormR) and GAIN domains and found that this ADGR is resistant to autoproteolysis despite the presence of a canonical HLS sequence at the GPS. By structural com-parison and with the help of molecular dynamics (MD) simulations we identified several unique structural features that are important for autoproteolytic cleavage, beyond the canonical HXS/T motif. Disruption of these features reduced autoproteo-lytic activity in ADGRL1/LPHN1 and restored cleavage competence of AD-GRB3/BAI3. Furthermore, conservation analysis indicates that wild type ADGRB2 and ADGRB3 are GPS cleavage-incompetent receptors." Authors & Affiliations "Fabian Pohl1, Florian Seufert2, Yin Kwan Chung3, Daniela Volke1, Ralf Hoffmann1, Torsten Schöneberg4, Tobias Langenhan3, Peter W. Hildebrand2, Norbert Sträter1 1 Institute of Bioanalytical Chemistry, Leipzig University, Deutscher Platz 5, 04103 Leipzig, Germany 2 Institute of Medical Physics and Biophysics, Leipzig University, Härtelstr. 16-18, D-04107 Leipzig 3 Rudolf-Schönheimer-Institute of Biochemistry, Division of General Biochemistry, Leipzig University, Johannisallee 30, D-04103 Leipzig 4 Rudolf-Schönheimer-Institute of Biochemistry, Division of Molecular Biochemis-try, Leipzig University, Johannisallee 30, D-04103 Leipzig" About Fabian Pohl "Mar 2023 – Today Postdoc, University Leipzig, Group of Prof. Langenhan Apr 2016 – Nov 2022 PhD candidate, University Leipzig, Group of Prof. Sträter Oct 2011 – Mar 2016 Master of Science in chemistry, University Leipzig Oct 2008 – Sep 2011 Bachelor of Science in chemistry, University Leipzig" Fabian Pohl on the web Langenhan Lab Structural studies of the CELSR1 extracellular region reveal a compact multidomain module of fourteen domains which regulates signaling Sumit Bandekar Abstract "Cadherin EGF Laminin G seven-pass G-type receptors (CELSRs) are conserved adhesion G protein-coupled receptors; they are essential for embryogenesis and neural development. CELSRs have large and enigmatic extracellular regions (ECRs) with nine cadherin repeats and a variety of adhesion domains which couple cell adhesion to signaling. CELSRs regulate planar cell polarity, including the closure of the neural tube. Despite numerous cell and animal studies, molecular details on CELSR proteins are sparsely available, precluding an integrative understanding of CELSR biology. Here, we report the 3.8 Å cryo-EM reconstruction of the CELSR1 ECR which enables unambiguous assignment of the 14 domains within the structure. These domains form a compact module mediated by robust and evolutionarily conserved interdomain interactions. This compact module provides a plethora of potential ligand binding sites for the various adhesion domains within the structure and hints at a model where the compact module could be pulled apart by robust mechanical force. We present biophysical evidence that the CELSR1 ECR forms an extended dimer in the presence of Ca2+, which we propose represents the cadherin repeats dimerizing in a configuration similar to protocadherins. We employ cellular assays with full-length CELSR1 and truncation constructs to assess the adhesive and signaling functions of this protein. We assign the N-terminal CADH1-8 module as necessary for cell adhesion and we show the C-terminal CAHD9-GAIN module regulates signaling. Our work provides molecular context to the literature on CELSR function and lays the groundwork for further elucidation of structure/function relationships." Authors & Affiliations "Garbett, Krassimira, Kordon, Szymon P., Shearer, Tanner, Sando, Richard C.*, and Araç, Demet* Department of Biochemistry and Molecular Biology, The University of Chicago Neuroscience Institute, Institute for Biophysical Dynamics, and the Center for Mechanical Excitability, The University of Chicago, Chicago, IL, 60637, USA. Department of Pharmacology, Vanderbilt Brain Institute, Vanderbilt University, Nashville, TN 37240, USA." About Sumit Bandekar "I am an NIH F32 postdoctoral fellow in the Araç Laboratory at the University of Chicago. I study adhesion GPCRs using structural biology perspective and I am interested in how the large multidomain extracellular region regulates receptor function. In my free time, I enjoy biking around Chicago and trying new breweries and restaurants." Sumit Bandekar on the web Araç Laboratory at UChicago X (Twitter) LinkedIn Unveiling the GPS Cleavage Mechanism in ADGRL1 with QM/MM Florian Seufert Abstract "Adhesion G-protein coupled receptors (aGPCR) are a family of 32 mammalian proteins with a defining conserved GPCR autoproteolysis inducing (GAIN) domain that catalyzes receptor self-cleavage at a GPCR proteolysis site (GPS). The autoproteolytic mechanism has been previously proposed, but remains to be validated.⁠ A previous computational study has uncovered variable flexible protein regions, whose dynamics mediate solvent-accessibility of the catalytically active GPS triad HL|S/T, however classical molecular dynamics approaches fall short of explaining the chemical reaction.⁠ Using a multiscale QM/MM approach - combining computational quantum mechanics with classical molecular dynamics - to study the GAIN domain cleavage mechanism of ADGRL1 reveals the sequence of events at the electronic level, suggesting relative energies for the individual states during the reaction, and provides insight into the structural determinants for a successful GPS cleavage exceeding the catalytically active GPS triad. By directly scanning and comparing energetic sequences of reaction steps, the most likely pathway and the individual contribution of surrounding protein residues can be elucidated. A stable π-edge contact with a conserved phenylalanine and a protonated glutamate side-chain catalyze the reactant conformation. MD simulations with the parameterized ester intermediate reveal a protonation-dependent dynamic desolvation of the GPS for subsequent ester hydrolysis by restricting water conformations. Mutational experiments on residues of interest showed that restoring the Phe-His interaction in the uncleaving ADGRB3 GAIN domain partially re-instates cleavage, while its deletion reduces cleavage in the ADGRL1 GAIN domain.⁠ We present a two-step GPS cleavage model and respective determinants of the reaction." Authors & Affiliations "Chung, Yin Kwan2, Pohl, Fabian2, Batebi, Hossein1 Sträter, Norbert3 , Langenhan, Tobias2 & Hildebrand, Peter Werner1 1 Institute of Medical Physics and Biophysics, Medical Faculty, Leipzig University, Germany 2 Rudolf Schönheimer Institute of Biochemistry, Division of General Biochemistry, Medical Faculty, Leipzig University, Germany 3 Institute of Bioanalytical Chemistry, Leipzig University, Germany" About Florian Seufert "Florian Seufert has studied Biochemistry in Leipzig, before joining the Hildebrand Lab in Leipzig for his PhD." Florian Seufert on the web LinkedIn ResearchGate < Previous Session Next Session >

Showcase your creativity in the AGPCR24 Logo Contest! Submit your design to represent the Adhesion GPCR Workshop and inspire our global community. LOGO CONTEST Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Register Rules for the logo contest Design must be based on “Alebrijes” [ah-leh-bree-hez], which are chimeric creatures from Mexican folklore AND contain adhesion GPCRs Avoid copyrighted material unless a CC BY / open-use license has been acquired or generated (Adobe Stock, etc). The Consortium must be free to use the design. Requirements: Resolution 300 ppi max, JPEG/TIFF/EPS/PNG/PDF formats, 5MB max Open to all adhesion GPCR community members. Artist-scientists must be registered to attend the adhesion GPCR workshop 2024 in Mexico City. The contest deadline is August 15th, 2024, 11:59 PM CST (designs received after the deadline will not be considered) Designs or inquiries should be sent to this email The prize for the selected design will include free registration and more! Register for the Adhesion GPCR 2024 Learn more about the Adhesion GPCR workshop 2024 Up About the event Learn more about the Adhesion GPCR workshop 2024 and its preliminary program. Up About the venue Discover Cinvestav, the host venue for the upcoming workshop. Up Abstract Submission Submit your research abstracts following our guidelines to present at the conference. Up Traveling Tips Find essential tips about Mexico City, including transportation options and local insights.

Full Agenda Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Download PDF Program HERE < Back to Full Agenda Plenary Lecture Identification and Functional Characterization of Adhesion GPCRs As Steroid Hormone Receptors and Hearing and Balance Receptors Abstract Only Available for AGPCR24 Attendees About Jin-Peng Sun "Since starting my laboratory in 2011, I has focused on G protein coupled receptors, in particular, the ligand identification, physiological functions and molecular mechanism of biased signaling of GPCRs. Our first main research aspect is the identification of endogenous ligand of GPCRs. We have identified the receptor subfamily to sense the steroid hormones. For instance, membrane receptor GPR97 is able to sense glucocorticoid to mediate its rapid actions, the progesterone and 17-hydroxyprogesterone membrane receptor are GPR126. We also identified DHEA, DHEAS and DOC are endogenous ligands of GPR64 etc (Nature, 2021a, Nat Chem Biol 2022, PNAS 2022b). Our second main research aspect is dissecting the molecular mechanism underlying sensation of force, ordor, itch and taste by GPCRs. We have elucidated the mechanism of receptors' perception of itch, olfactory and force (Nature 2021b, 2022a, 2022b, 2023a, 2024). Our third main research aspect is working mechanism of GPCR. For arrestin mediated biased signaling, we have proposed the “flute model” and “poly proline region docking theory” etc. to explain the arrestin mediated GPCR functions (Nature communications, 2015, 2021, 2022; PNAS 2021, Molecular Pharmacology, 2017; Recommended by Faculty 1000, Nature Chemical Biology 2018). We identified that arrestin can mediated AT1R/TRPC3 or M3R/TRPC3 coupling by forming a complex of AT1R/β-arrestin-1/PLCγ/TRPC3 or M3R//β-arrestin-1/TRPC3 (Nature communications, 2017, Nature communications, 2018). We also identified that orphan receptor GPR64 forms complex with β-arrestin-1 and CFTR at apical membrane of efferent ductulus to regulate the salt/water metabolism (eLife 2018, Faculty 1000 recommendation). Our fourth main research aspect is ligand coding mechanisms and structural aided drug discovery of GPCR. We have decoded the mechanisms underlying recognition of fish oil (unsaturated fatty acids) and other lipids by GPCRs (Science 2023, Science Advance 2021, PNAS 2023, Nature Metabolism 2023), recognition of amine containing hormones by GPCRs (Cell 2021, 2023, Nature 2023b), bile acids or its derivatives by GPCRs (Nature 2020)." Jin-Peng Sun on the web Google Scholar LinkedIn < Previous Session Next Session >

Full Agenda Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Download PDF Program HERE < Back to Full Agenda Session VIII Physiological and pathological roles of AGPCRs in the periphery ADGRG1/GPR56 regulates survival of terminally differentiated CD8+ T cells Cheng-Chih Hsiao Adhesion GPCR GPR116/Adgrf5 controls a lineage of anti-thermogenic adipocytes with implications for adaptive thermogenesis during prolonged cold exposure Anastasia Georgiadi ADGRF5-mediated regulation of cardiac health and disease Douglas Tilley ADGRG1/GPR56 regulates survival of terminally differentiated CD8+ T cells Cheng-Chih Hsiao Abstract Only available for AGPCR 24 Attendees Authors & Affiliations "Cheng-Chih Hsiao1,2, Hendrik J. Engelenburg1, Joost Smolders1,3, and Jörg Hamann1,2 1Department of Neuroimmunology, Netherlands Institute for Neuroscience, Amsterdam, The Netherlands; 2Department of Experimental Immunology, Amsterdam institute for Immunology and Infectious diseases, Amsterdam University Medical Center, Amsterdam, The Netherlands; 3MS center ErasMS, Departments of Neurology and Immunology, Erasmus Medical Center, Rotterdam, The Netherlands" About Cheng-Chih Hsiao "2012-2015: PhD in Immunology, University of Amsterdam; 2015-2019: Postdoctoral researcher, Amsterdam UMC; 2019-2022: Senior postdoctoral researcher, Netherlands Institute for Neuroscience; 2022 - present: Researcher associate, Netherlands Brain Bank" Cheng-Chih Hsiao on the web LinkedIn ReseachGate Adhesion GPCR GPR116/Adgrf5 controls a lineage of anti-thermogenic adipocytes with implications for adaptive thermogenesis during prolonged cold exposure Anastasia Georgiadi Abstract Only available for AGPCR 24 Attendees Authors & Affiliations "El Merabhi Rabih1*, Karagiannakou Vasiliki1*, Kardinal Ronja2, Jäckstein Michelle3 Yvonne, Kumar Jha Ankush1, Krokidi Sissy Thodou1, Wachten Dagmar2, Heeren Jörg3, Herzig Stephan1, Georgiadi Anastasia1 *equal contributions , Institutions : 1. Institute for Diabetes and Cancer, Helmholtz Centre Munich, Germany, 2. Institute of Innate Immunity, University Hospital Bonn, University of Bonn, 3. Centre for Experimental Medicine, Institute for Biocehmistry and Molecular Cell Biology, University Medical Center Hamburg-Eppendorf" About Anastasia Georgiadi "Head of Junior Group Endocrine Pharmacology, Institute of Diabetes and Cancer (IDC). Professional Background Since 2021 Group Leader, Institute for Diabetes and Cancer, Helmholtz Diabetes Centre, Munich 2018 - 2021 Project Team Leader, Institute for Diabetes and Cancer, Helmholtz Diabetes Centre, Munich 2015 - 2018 Postdoctoral fellow, Department of Adipose Tissue Biology, Institute for Diabetes and Cancer, Helmholtz Diabetes Centre, Munich 2012 - 2015 Postdoctoral fellow, Department of Cell and Molecular Biology, Karolinska Institute, Sweden" Anastasia Georgiadi on the web Endocrine Pharmacology Google Scholar ADGRF5-mediated regulation of cardiac health and disease Douglas Tilley Abstract Only available for AGPCR 24 Attendees About Douglas Tilley "Research in the Tilley laboratory focuses primarily upon aspects of GPCR regulation of cardiac function, inflammation and remodeling during HF or following acute cardiac injury. Much of this work centered on elucidating novel mechanisms by which β-adrenergic receptors impact cardiac structure and function, and has evolved to encompass their roles in regulating immune cell response to acute cardiac injury or chronic stress. Additionally, the lab has begun to investigate potential roles for previously unrecognized cardiac-expressed GPCRs in the regulation of physiologic/pathologic function in the heart in an effort to uncover novel therapeutic directions for HF, including adhesion GPCRs (AGPCRs). In all, research in the Tilley lab spans molecular pharmacology to pathophysiology studies focused primarily in the cardiovascular realm." Douglas Tilley on the web Lewis Katz School of Medicine at Temple University < Previous Session Next Session >

Explore sponsorship opportunities for the Adhesion GPCR Workshop 2024. Connect your organization with leading GPCR researchers and showcase your brand to the scientific community. SPONSORSHIP PROSPECTUS Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Sponsor We are delighted to present the sponsorship opportunities available for Adhesion GPCR Workshop 2024, a premier scientific meeting bringing together leaders and innovators in G Protein-Coupled Receptor (GPCR) biology. Adhesion GPCR Workshop 2024 will take place on October 23-25, 2024 at Centro de Investigación y de Estudios Avanzados del Instituto Politécnico Nacional (known as Cinvestav) in Mexico City, offering a dynamic platform for knowledge exchange, collaboration, and networking. About the Adhesion GPCR Workshop 2024: Adhesion GPCR Workshop 2024 is a high-profile expert conference, attracting attendees from across the globe. Our agenda includes keynote presentations, panel discussions, workshops, and networking sessions covering the latest advancements and challenges in Membrane Receptor biology. This event provides an unparalleled opportunity for sponsors to showcase their commitment to scientific excellence and innovation. Audience Profile: Basic Scientists Academics Clinical Scientists Industry Professionals Health Professionals Policy Makers Students Why Sponsor Adhesion GPCR Workshop 2024? Align your brand with scientific excellence and innovation. Showcase your products, services, and research initiatives to a targeted audience. Enhance brand visibility and recognition among key stakeholders in the field. Network with leading professionals and decision-makers in the industry. Support the advancement of knowledge and collaboration within the scientific community. Sponsorship Opportunities Platinum Sponsor Exclusive recognition as the Platinum sponsor in all promotional materials. Prime placement of company logo on event website, signage, and marketing collateral. Opportunity to deliver opening remarks or introduce keynote speakers. Complimentary exhibition booth in a prominent location at the event venue. Recognition in press releases and media coverage. Complimentary registration for 3 representatives. Opportunity to be designated in print on the 1 st ever “aGPCR Excellence and Mentoring Award” Customized sponsorship package available upon request. Gold Sponsor Prominent recognition as a Gold sponsor in all promotional materials. Company logo displayed on event website, signage, and marketing collateral. Opportunity to sponsor a keynote session or panel discussion. Recognition during opening and closing remarks. Complimentary exhibition booth at the event. Complimentary registration for 2 representatives. Customized sponsorship package available upon request. Silver Sponsor Recognition as a Silver sponsor in all promotional materials. Company logo displayed on event website and signage. Opportunity to sponsor a workshop or networking session. Recognition during opening and closing remarks. Complimentary registration for 1 representative. Customized sponsorship package available upon request. Bronze Sponsor Recognition as a Bronze sponsor in all promotional materials. Company logo displayed on event website.Recognition during opening and closing remarks. Additional Sponsorship Opportunities: Networking Reception Sponsorship Conference Cup and T-Shirt Sponsorship Conference Bag Sponsorship Lanyard Sponsorship Coffee Break Sponsorship Customized Opportunities Available Contact us for sponsorship Register for the Adhesion GPCR 2024 Learn more about the Adhesion GPCR workshop 2024 Up About the event Learn more about the Adhesion GPCR workshop 2024 and its preliminary program. Up About the venue Discover Cinvestav, the host venue for the upcoming workshop. Up Abstract Submission Submit your research abstracts following our guidelines to present at the conference. Up Traveling Tips Find essential tips about Mexico City, including transportation options and local insights.

Full Agenda Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Download PDF Program HERE < Back to Full Agenda Closing remarks < Previous Session Next Session >

Full Agenda Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Download PDF Program HERE < Back to Full Agenda Welcoming Remarks < Previous Session Next Session >

Full Agenda Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Download PDF Program HERE < Back to Full Agenda Complimentary Lunch < Previous Session Next Session >

Meet the sponsors who make the Adhesion GPCR Workshop 2024 possible, supporting global collaboration and innovation in GPCR research. Home Registration Full Agenda Venue Travel Tips Sponsors Special Issue on Adhesion GPCRs OUR SPONSORS Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Sponsor Us Platinum Sponsors Bronze Sponsors Collaborating partners Contact us for sponsorship Register for the Adhesion GPCR 2024 Learn more about the Adhesion GPCR workshop 2024 Up About the event Learn more about the Adhesion GPCR workshop 2024 and its preliminary program. Up About the venue Discover Cinvestav, the host venue for the upcoming workshop. Up Abstract Submission Submit your research abstracts following our guidelines to present at the conference. Up Traveling Tips Find essential tips about Mexico City, including transportation options and local insights.

Scott Leiser on the web University of Michigan Pubmed ResearchGate LinkedIn Dr.

Dr. Heidi Hamm on the web The Hamm Lab Vanderbilt School of Medicine Pubmed Google Scholar LinkedIn Twitter Dr

Full Agenda Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Download PDF Program HERE < Back to Full Agenda Leaving for City Center Coming Soon < Previous Session Next Session >

Full Agenda Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Download PDF Program HERE < Back to Full Agenda Complimentary Reception dinner MENU Four Mushroom Soup Tomato, Panela Cheese, and Spinach tower with Oregano Vinaigrette Cane Sugar and Arbol Chile Lacquered Duck Monte Cristo Chocolate Cake Coffee or Tea Vegetarian option* -Mushroom-stuffed chiles on refried bean sauce- instead of the duck < Previous Session Next Session >

Full Agenda Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Download PDF Program HERE < Back to Full Agenda Leave for dinner reception Coming Soon < Previous Session Next Session >

Sexton is also a co-founder of Septerna Inc. " Patrick Sexton on the web CCeMMP Monash University Dr.

Full Agenda Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Download PDF Program HERE < Back to Full Agenda Registration & Coffee with light breakfast < Previous Session Next Session >

Full Agenda Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Download PDF Program HERE < Back to Full Agenda Coffee Break with lights snacks Complimentary < Previous Session Next Session >

Full Agenda Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Download PDF Program HERE < Back to Full Agenda Board meeting/General assembly Welcome to Join Coming Soon < Previous Session Next Session >

Dr. Keyword Cloud GPCR research community , Dr. Dr.

The Ramsey Lab Amy Ramsey on the web University of Toronto Pubmed Google Scholar LinkedIn Twitter Dr.

Full Agenda Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Download PDF Program HERE < Back to Full Agenda Mexico City Nocturnal Tour, Food and drinks Coming Soon < Previous Session Next Session >

Full Agenda Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Download PDF Program HERE < Back to Full Agenda Coffee Break with pastries announcement of the aGEM award Complimentary < Previous Session Next Session >

Full Agenda Adhesion GPCR workshop 2024 CINVESTAV, Mexico City, Mexico October 23-25 Download PDF Program HERE < Back to Full Agenda Session IX / Technology capsule: Light on aGPCR signaling and function NovoiSMART - A new platform for GPCR antibody drug discovery Abstract Developing monoclonal antibody drugs against GPCRs and other multi-pass transmembrane targets, such as ion channels, remains a significant challenge. Novoprotein developed a NovoiSMART technology, utilizing mRNA-based immunization, which can overcome these obstacles by producing high-quality antibodies that more accurately mimic natural protein structures. This approach contrasts with other antigen forms like peptides or DNA, which face limitations in structural integrity and immunogenicity. mRNA technology, demonstrated in the success of COVID-19 vaccines, is emerging as a promising method for antibody discovery. Several case studies of GPCR and other multi-pass transmembrane targets are presented, including GPRC5D, Claudin 6 and Napi2b. These studies show that mRNA immunization yields higher antibody titers and greater epitope diversity compared to other methods. These examples underscore the potential of NovoiSMART technology in developing highly specific antibodies for complex targets, with implications for overcoming challenges like drug resistance and tumor escape. About Gavin Zhang Gavin is a currently a director of business and operations at Novoprotein Scientific. His research experience includes phylogenetics and cancer epigenetics. Gavin Zhang on the web LinkedIn < Previous Session Next Session >

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