|
An Emergin Area of Targeted Cancer Therapy: DNA Damagae Repair and Signaling Pathways
|
|
Lee Zou△
|
MGH Cancer Center
|
Targeting the ATR checkpoint in cancer therapy
|
|
Shan Zha△*
|
Columbia University
|
Precision medicine with old friends –structural function of ATM and ATR
|
|
Junjie Chen
|
MD Anderson Cancer Center
|
Proteomic analysis of DNA replication and replication checkpoint control
|
|
Lei Li
|
MD Anderson Cancer Center
|
Transcription-aided suicide - Molecular Pathology of Fanconi anemia.
|
|
Zhiyuan Shen
|
Robert Wood Johnson Medical School
|
DNA replication fork stability protected by BCCIP and its fingerprints in tumorigenesis
|
|
Li Lan
|
Hillman Cancer Center
|
Introducing DNA damage at the end of chromosomes and its effect in cancers
|
|
Dongyi Xu
|
Peking University
|
To be added soon. Rif1 promotes stalled replication fork restart
|
|
|
|
|
|
Cancer metabolism and beyond
|
|
Hsing-Jien Kung△
|
NHRI and NTHU, TW
|
Targeting tumor metabolism and mitochondria: the histone demethylase connection
|
|
Wen-Ching Wang
|
National Tsing Hua University, TW
|
|
|
Jing Chen
|
Emory University School of Medicine
|
Diet-fueled metabolic rewiring in human cancer
|
|
David Ann
|
Beckman Research Institute, City of Hope
|
Metabolic Stress-Induced Mitochondrial Reprograming
|
|
Boyi Gan
|
MD Anderson Cancer Center
|
Energy Sensing and Metabolism in Cancer
|
|
Zhimin Lu△
|
MD Anderson Cancer Center
|
Protein kinase activity of metabolic enzymes
|
|
|
|
|
|
Mechanisms of Genomic Instability Syndromes: From Genetics To Genomics.
|
|
Wei Yang△*
|
National Institute of Diabetes and Digestive and Kidney Diseases
|
|
|
Xiaochun Yu△*
|
Beckman Research Institute, City of Hope
|
Novel therapeutic targets for Genomic Instability Syndromes (backup speaker)
|
|
Xiaolan Zhao△*
|
Memorial Sloan Kettering Cancer Center
|
Mechanisms of the Smc5/6 complex that prevents new types of genomic instability syndromes
|
|
Binghui Shen
|
City of Hope
|
Guarding genomic DNA by FEN1 nuclease
|
|
Guo-Min Li
|
Tsinghua University
|
Mechanism of repeat instability-caused neurodegenerative disorders
|
|
Feng Qiao
|
University of California
|
Targeting the ends of the chromosomes: from new mechanisms to new therapeutics
|
|
Xiaolan Zhao
|
Memorial Sloan Kettering Cancer Center
|
Mechanisms of the Smc5/6 complex that prevents new types of genomic instability syndromes
|
|
Huang Jun
|
Zhejiang University
|
The role of CAR1 in genome stability protection
|
|
|
|
|
|
Nuclear Receptor Function and Diseases
|
|
Sophia Y. Tsai△*
|
Baylor College of Medicine
|
|
|
Ming-Jer Tsai△*
|
Baylor College of Medicine
|
|
|
Jianming Xu
|
Baylor College of Medicine
|
Nuclear receptor coregulator Ncoa6 regulates prostate epithelial differentiation & carcinogenesis
|
|
Hongwu Chen
|
School of Medicine UCDMC Research III
|
Nuclear receptor RORs as novel therapeutic targets in prostate cancer
|
|
Shih-Chieh (Jay) Lin
|
National Cheng Kung University
|
The role of COUP-TFII-miR-21-YAP1 regulation axis in enzalutamide-resistant prostate cancer
|
|
Hao Ying
|
Institute for Nutritional Sciences
|
Thyroid hormone regulated-microRNA in cholesterol metabolism
|
|
Sheue-yann Cheng
|
National Cancer Institute
|
Defective Erythropoiesis Caused by Mutations of the Thyroid Hormone Receptor Alpha Gene
|
|
|
|
|
|
Recent Advances in Cancer Research
|
|
Burton B. Yang△
|
Sunnybrook Health Sciences Centre
|
Roles of circular RNA in breast cancer development
|
|
Shi-Mei Zhuang
|
Sun Yat-Sen University
|
non-coding RNA in the development of hepatocellular carcinoma
|
|
Jin-Xin Bei
|
Sun Yat-Sen University Cancer Center
|
The genetic landscape of EBV-related Malignancies
|
|
Benjamin K. Tsang
|
University of Ottawa
|
Gelsolin and chemoresistant ovarian cancer: from basic to translational research
|
|
Chun Peng△*
|
York University, Toronto
|
Cyclin G2 suppresses ovarian cancer metastasis
|
|
|
|
|
|
New Concepts of Radiation Biology: its implication in human health and cancer therapy
|
|
Fen Xia△*
|
University of Arkansas College of Medicine
|
|
|
Zhenkun Lou△*
|
Mayo Clinic College of Medicine & Science
|
|
|
Tom Hei
|
Columbia University Medical Center
|
The New Radiobiology: Extranuclear and Extracellular Effects of Ionizing Radiation
|
|
Zhimin Yuan,
|
Harvard University School of Public Health
|
Low doses of irradiation induce a protective metabolic response
|
|
Ya Wang
|
Emory University
|
Difference in repair of low and high-LET radiation-induced DNA damage
|
|
Jian Yuan
|
Tongji University School of Medicine
|
The role of deubiquitinase in radioresistance
|
|
Chuan-Yuan Li
|
Duke University Medical Center
|
Caspases, DNA repair, and stemness of cancer cells
|
|
|
|
|
|
Retinal Function and Diseases
|
|
Ting Xie△*
|
Stowers Institute for Medical Research
|
Anterior segment development and potential implications in glaucoma pathogenesis
|
|
Wei Li△*
|
National Institutes of Health
|
Retinal adaptations to metabolic challenges
|
|
Zhigang He
|
Boston Children's Hospital
|
Retinal ganglion cell axon regeneration
|
|
Ching-Hwa Sung
|
Weill Medical College of Cornell University
|
Photoreceptor development, stem cell, and retinal degenerative diseases
|
|
Tian Xue
|
University of Science & Technology of China
|
Function of non-image-forming retinal ganglion cells
|
|
|
|
|
|
Energy and Glucose Homeostasis: A Symphony by the Neuro-Immuno-Endocrine Orchestra
|
|
Yong Xu△
|
Baylor College of Medicine
|
Hypothalamic steroid receptor coactivator-1 and energy homeostasis
|
|
Qin Yang
|
University of California
|
Epigenetic regulation of insulin resistance and energy expenditure
|
|
Qingchun Tong
|
University of Texas McGovern Medical School
|
Red blood cell β-adrenergic receptors contribute to diet-induced energy expenditure by
increasing O2 supply
|
|
Feng Liu△*
|
Department of Pharmacology, UTHSCSA
|
The roles of ER and mitochondrial stress in insulin resistance and type 2 diabetes
|
|
Wenxian Fu
|
University of California
|
Novel role of macrophages in islet inflammation of type 1 and type 2 diabetes.
|
|
|
|
|
|
New Insights on Alcoholic and Nonalcoholic Liver Diseases: Organ Crosstalk and Mechanisms
|
|
Min You△
|
Northeast Ohio Medical University
|
Myeloid Cell-Specific Lipin-1 Deficiency Stimulates Endocrine Adiponectin-FGF15 Axis and
Ameliorates Ethanol-Induced Liver Injury in Mice.
|
|
Jun Sun△*
|
University of Illinois at
Chicago
|
Novel roles of vitamin D receptor in mediating gut-liver axis and microbiota
|
|
Xudong Hu
|
Shanghai University of Tranditional
Chinese Medicine
|
MitoNEET Deficiency Alleviates Experimental Alcoholic Steatohepatitis in Mice by
Stimulating Endocrine Adiponectin-FGF15 Axis
|
|
Chaohui Yu
|
Zhejiang University
|
Omics in Nonalcoholic fatty liver disease
|
|
Zhenyuan Song
|
University of Illinois Medical Center
|
SIRT3-mediated autophagy suppression dictates lipotoxicity in hepatocytes
|
|
|
|
|
|
Metabolic risk factors and liver cancer
|
|
Bangyan L Stiles△*
|
Keck School of Medicine
|
Steatosis induces Wnt to promote liver cancer.
|
|
Yingzi Yang△*
|
Harvard School of Dental Medicine
|
Interacting network of Wnt/β-catenin, Notch and Hippo signaling regulates liver tumor
formation.
|
|
Wendong Huang
|
Beckman Research Institute of City of Hope
|
CAMKII as a link between liver metabolism and cancer development
|
|
Yinying Lu
|
302 Military Hospital of China
|
Insulin Resistance, Diabetes and HBV-related HCC
|
|
Jiayou Wang
|
Guangzhou University of
Chinese Medicine
|
Splicing Regulator Slu7 Uncouples Steatosis and Liver Injury in Ethanol-Fed Mice
|
|
|
|
|
|
p53, Metabolism, and Cancer
|
|
Zhaohui Feng△
|
State University of New Jersey
|
Glucose metabolism regulation by p53 and its tumor-associated mutants
|
|
Wei Gu
|
Columbia University
|
p53 engages multiple metabolic pathways with ferroptosis for tumor suppression
|
|
Hua Lu△*
|
Tulane University School of Medicine
|
Dual defects of MDM2-MDMX-p53 signaling in cancer metabolism and development.
|
|
Zhimin Yuan
|
Harvard Chan School of Public Health
|
p53 regulates metabolism in a transcription-independent mechanism
|
|
Yanping Zhang
|
Department of Radiation Oncology
|
The role of MDM2-p53 loop in cancer metabolism and biology.
|
|
Wenwei Hu
|
State University of New Jersey
|
Mutant p53 gain of function in cancer
|
|
|
|
|
|
Communication between transcription and histone regulation
|
|
Dong Wang△
|
University of California San Diego
|
Mechanism of Pol II Transcription Elongation Control and Lesion Recognition
|
|
Yan Jessie Zhang△
|
University of Texas at Austin
|
Deciphering the CTD code for eukaryotic transcription
|
|
Xin Liu
|
UT Southwestern Medical Center
|
Molecular basis of gene regulation by polycomb repressive complexes
|
|
Kai Ge
|
NIDDK, NIH
|
Enhancer chromatin modification in cell fate transition
|
|
Xiaobing Shi
|
M.D. Anderson Cancer Center
|
Reading histone code
|
|
Bing Li
|
UT Southwestern Medical Center at Dallas
|
Molecular features of travelling chromatin modifiers
|
|
|
|
|
|
Hematological malignancies
|
|
Qing Yi△*
|
Cleveland Clinic
|
Targeting Tumor and Its Microenvironment for Myeloma Therapy
|
|
B. Hilda Ye△
|
Albert Einstein College of Medicine
|
Novel Roles of STAT3 in Diffuse Large B-cell Lymphomas
|
|
Qing Yi,
|
Cleveland Clinic
|
|
|
B. Hilda Ye
|
Albert Einstein College of Medicine
|
|
|
Fenghuang Zhan
|
University of Iowa Carver School of Medicine
|
Modulation of Cellular Iron Metabolism: a New Therapeutic Strategy for Multiple Myeloma
|
|
Jing Yang
|
MD Anderson Cancer Center
|
Thymidine Phosphorylase and Myeloma-Associated Bone Disease
|
|
Jianjun Zhao
|
Cleveland Clinic
|
Functional Study Genetic Lesions in Multiple Myeloma Initiation and Progression
|
|
|
|
|
|
Cullin-RING ligase and protein neddylation in cancer biology
|
|
Yi Sun△
|
Zhejiang University and University of Michigan
|
|
|
Lingqiang Zhang△
|
Beijing Institute of Radiation Medicine
|
|
|
Yue Xiong
|
University of North Carolina at Chapel Hill & Fudan University
|
The mechanism, assembly and control of the Cullin-ROC1 family E3 ligases
|
|
Wenyi Wei
|
Beth Israel Deaconess Medical Center
|
Targeting the SCF ubiquitination pathway for cancer therapies
|
|
Pengbo Zhou
|
Cornell University
|
Physiological and pathological roles of the Cullin 4 ubiquitin ligases
|
|
Lijun Jia
|
Fudan University
|
Neddylation modification as an attractive anticancer target
|
|
Ping Wang
|
Tongji University
|
Regulation of cancer stem cells by ubiquitination
|
|
|
|
|
|
Therapeutic Resistance in Prostate Cancer
|
|
Yun Qiu△
|
University of Maryland School of Medicine
|
Epigenetic regulation and therapeutic resistance in prostate cancer
|
|
Yun-Fai Chris Lau△
|
University of California
|
The Battle of the Sexes: TSPY and TSPX Actions in AR Signaling and Prostate Cancer
|
|
Jiaoti Huang
|
Duke University Medical Center
|
Cellular heterogeneity and therapeutic resistance in prostate cancer
|
|
Haojie Huang
|
Mayo Clinic
|
Molecular subtypes of prostate cancer and therapy resistance
|
|
Jindan Yu
|
Northwestern University
|
|
|
|
|
|
|
Innate Immune Responses and Inflammation
|
|
Shan-Lu Liu
|
Ohio State University
|
Novel cellular factors modulating viral infection
|
|
Pinglong Xu(徐平龙)
|
Zhejiang University
|
Dynamic regulation of cytosolic nucleic acid sensing by phosphorylation and dephosphorylation
|
|
Qing Kenneth Wang王擎△
|
Huazhong University of Science and Technology
|
Genetics basis of inflammation in coronary artery diseases
|
|
Guangxun Meng, (孟广勋)
|
Institut Pasteur of Shanghai, CAS
|
Function of the NLRP3 Inflammasome in Gut Inflammation
|
|
Tsan Sam Xiao△*
|
Case Western Reserve University
|
Molecular Mechanisms of Pyroptosis Regulation
|
|
|
|
|
|
Genomic and Nongemoic Signaling and Functions of Steroids and Their Receptors.
|
|
Yong Zhu△*
|
East Carolina University
|
To determine functions of membrane and nuclear progestin receptors during oocyte maturation,
ovulation and early development using knockout zebrafish model.
|
|
Yunbo Shi△*
|
National Institutes of Health
|
Nuclear action of TRα controls metamorphic timing and rate during Xenopus development
|
|
Bon-chu Chung
|
National Tsing Hua University, TW
|
Nongenomic Action of Neurosteroid Pregnenolone in Neurons
|
|
Victor Hsia
|
University of Maryland Eastern Shore
|
Thyroid Hormone Contributed to Herpes Viruses Gene Regulation in Neurons
|
|
Paul Yen
|
National University of Singapore
|
Thyroid Hormone Regulation of Mitophagy
|
|
Shixi Chen
|
Xiamen University
|
Functions of steroids and their receptors in male reproduction.
|
|
Xiao Fan Zhao
|
Shandong University
|
Steroid hormone 20-hydroxyecdysone via G-protein-coupled-receptor transmits signal in insect.
|
|
|
|
|
|
Novel Molecular Landscapes Leading to Prostate Cancer Progression
|
|
Wenliang Li
|
The University of Texas Health Science Center at Houston
|
Beta adrenergic signaling and GRK3 in prostate cancer progression
|
|
Yan Dong
|
Tulane University School of Medicine
|
New insights into Androgen Receptor Splice Variants in Prostate Cancer
|
|
Kexin Xu
|
The University of Texas Health Science Center at San Antonio
|
Treat prostate cancer in an EaZHy way
|
|
Jer-Tsong Hsieh△*
|
UT Southwestern Medical Center
|
Pro-metastatic effect of interferon on prostate cancer via microRNA regulation
|
|
Qi Cao△*
|
Houston Methodist Research Institute
|
A novel role for BMI1 in prostate cancer
|
|
|
|
|
|
Systemic Mechanisms of Aging
|
|
Meng Wang△
|
Baylor College of Medicine
|
Autonomous and Non-autonomous Regulation of Aging via Lysosomal Lipid Signaling
|
|
Guanghui Liu
|
Institute of Biophysics, CAS
|
Using Stem Cell and Gene Editing Techniques to Study and Treat Aging-Associated Disorders
|
|
Syliva Lee
|
Cornell University
|
Genetic and Epigenetic Determinants of Longevity in C. elegans
|
|
Weiwei Dang△
|
Baylor College of Medicine
|
Maintenance of transcription fidelity is a conserved longevity mechanism
|
|
Hao Li
|
University of California
|
Systems Biology of Cellular Aging
|
|
|
|
|
|
Genome maintenance, DNA Repair and Recombination
|
|
Robert Yu-Lin Tsai
|
Texas A&M University
|
Discovery of a new genome maintenance program in tumor progression
|
|
Shiaw-Yih (Phoebus) Lin
|
MD Anderson Cancer Center
|
Signature-guided approaches for targeting DNA damage defects
|
|
Hengyao Niu
|
Indiana University
|
Mechanisms and regulation of DNA break processing in eukaryotes
|
|
Huang-Yuan Chi△
|
National Taiwan University
|
The role of polyamines in DNA double-strand break repair
|
|
Ting-Fang Wang △*
|
Institute of Molecular Biology, TW
|
SUMO modification in DNA repair and recombination during meiosis
|
|
|
|
|
|
New Frontier of Cancer Metastasis Research: From Lab Bench to Bedside
|
|
Dihua Yu△*
|
MD Anderson Cancer Center
|
In vivo kinome screen uncovering new therapeutic targets for brain metastasis
|
|
Jean Zhao
|
Dana-Farber Cancer Institute
|
Targeting cancer brain metastasis: insights from mouse models and NGS
|
|
Xiang Zhang
|
Baylor College of Medicine
|
Novel approaches to model early-stage bone metastases and discover anti-metastasis therapies
|
|
Qinghua Zhou
|
West China Hospital
|
Translational Medicine of Lung Cancer Metastasis: from bench to bedsides.
|
|
Lun-Xiu Qin△
|
Fudan University
|
The dysregulation of metabolism and cancer metastasis
|
|
|
|
|
|
Fibrosis-molecular mechanisms and future therapeutics
|
|
Youhua Liu△
|
University of Pittsburgh Medical Center
|
Molecular mechanisms of renal fibrosis
|
|
Jingwu Xie△*
|
Indiana University School of Medicine
|
Is hedgehog signaling critical for pathological fibrosis?
|
|
Dianhua Jiang
|
Cedars Sinai Medical Center
|
TLR4, HA and lung stem cells in lung injury, repair and fibrosis
|
|
Ivana V. Yang
|
University of Colorado Denver
|
Epigenetic regulation of pulmonary fibrosis
|
|
LAN Hui Yao
|
Prince of Wales Hospital
|
TGFbeta/SMAD signaling and fibrosis
|
|
|
|
|
|
Drug Discovery & Biomarkers
|
|
Xiao-Yan Wen△*
|
University of Toronto
|
Zebrafish based chemical genetic screens for drug development
|
|
Heyu Ni△
|
Keenan Research Centre
|
Novel mechanisms and targets of thrombosis: Development of new drugs targeting platelet adhesion molecules
|
|
Peter Liu
|
University of Ottawa Heart Institute
|
Insight into Novel Mechanisms of Heart Failure through Proteomic Biomarker Search
|
|
Yibin Feng
|
The University of Hong Kong
|
Drug discovery from Chinese medicines: the past, present and future
|
|
Xiaoliang Wang
|
Institute of Materia Medica, CAMS
|
Translational study of biomarkers and drug targets for neurodegenerative diseases
|
|
|
|
|
|
Mucosal Immunity and Associated Diseases
|
|
Chen Dong△
|
Tsinghua University
|
|
|
Xin Lin
|
Tsinghua University
|
|
|
Pentao Liu
|
Sanger Institute, Cambridge
|
|
|
Min Li
|
Memorial Sloan-Kettering Cancer Center
|
|
|
Bing Su△*
|
Shanghai Institute of Immunology/Yale University
|
|
|
|
|
|
|
Neurodevelopment and disorders
|
|
Shen-Ju Chou
|
Institute of Cellular and Organismic Biology, Academia Sinica
|
COUP-TF1 regulates cortical regional patterning
|
|
Zheng Li
|
NIH
|
The function of the schizophrenia risk gene DTNBP1 in synapse development and neural
oscillation
|
|
Hui-Chen Lu
|
Indiana University
|
Mouse model for studying FGFR3 mutation in human thanatophoric dysplasia
|
|
Yi-Ping Hsueh△*
|
Institute of Molecular Biology, Academia Sinica
|
Using Mouse Models to Assess Developmental Deficits in Neurological Disorders
|
|
Jun Xia
|
Hong Kong University of Science and Technology
|
Role of PICK1 in protein trafficking and diseases
|
|
|
|
|
|
Transcription Mechanisms and Human Diseases
|
|
Haitao Li
|
Tsinghua University
|
Sensing Histone Crotonylation for Transcription Control
|
|
Gang Wang
|
Inst of Biochem & Cell Biol, CAS
|
Mediator-ing Transcription and Cell Fates
|
|
Qiang Wu
|
Shanghai Jiao Tong University
|
Protocadherin Gene Regulation in Development and Diseases
|
|
Jiemin Wong△
|
East China Normal University
|
Control of Global Transcription via CDK9 Sumoylation and MYC
|
|
Cheng-Ming Chiang△*
|
UT Southwestern Medical Center
|
BRD4 in Transcription Programming and Cancer Therapy
|
|
|
|
|
|
Human iPSC-based modeling of neurodevelopment and diseases
|
|
Yanhong Shi△*
|
City of Hope
|
Studying neurological diseases using patient iPSC models
|
|
Yadong Huang△
|
Gladstone Institute of Neurological Disease
|
Modeling Alzheimer’s disease and drug screening using human iPSCs
|
|
Su-Chun Zhang
|
University of Wisconsin
|
Reconstruction of neural circuits by human stem cells
|
|
Zhexing Wen
|
Emory University School of Medicine
|
Modeling Zika virus exposure with human iPSC-derived neural cells
|
|
Chun-Li Zhang
|
UT Southwestern Medical Center
|
Direct neural reprogramming for modeling human motor neuron disease
|
|
|
|
|
|
Frontiers of Liver Cancer Research
|
|
Hongyang Wang
|
Eastern Hepatobiliary Surgery Hospital
|
Molecular pathogenesis of liver cancer
|
|
Xin Wei Wang△*
|
National Cancer Institute
|
Liver cancer genome and biology
|
|
Juling Ji
|
Natong Medical University
|
Hepatic stellate cells and liver cancer
|
|
Junfang Ji△*
|
Zhejiang University
|
Roles of microRNAs in liver cancer stem cells
|
|
Bin Zhao
|
Zhejiang University Life Sciences Institute
|
YAP pathway and liver cancer
|
|
|
|
|
|
Epigenetics and Hamatological Malignancies
|
|
Mingjiang Xu△*
|
University of Miami Miller School of Medicine
|
|
|
Jianjun Chen△*
|
University of Cincinnati College of Medicine
|
|
|
Suming Huang
|
University of Florida College of Medicine
|
The role of CTCF in 3D genome organization and leukemogenesis
|
|
Feng-Chun Yang
|
University of Miami Miller School of Medicine
|
Mutations of ASXL1/2 in myeloid malignancies
|
|
Xinyang Zhao
|
The University of Alabama at Birmingham
|
Epigenetic impacts of PRMT1-mediated metabolic reprogramming in megakaryopoiesis
|
|
Zhijian Qian
|
University of Illinois at Chicago
|
The role of EVI1-induced aberrant methylation in AML
|
|
Jia Yu
|
Institute of Basic Medical Sciences, CAMS
|
The regulation of microRNA biogenesis in erythropoiesis and acute erythroid leukemia
|
|
|
|
|
|
Cure of Chronic Viral Hepatitis
|
|
James Jing-Hsiung Ou△
|
USC Keck School of Medicine
|
|
|
Guangxiang (George) Luo△*
|
University of Alabama at Birmingham
|
Model systems for the study of hepatitis viruses and antiviral drug discovery
|
|
Jianming Hu,
|
Penn State College of Medicien
|
HBV Capsid as Regulator of cccDNA Formation and Target for Viral Clearance
|
|
Wenhui Li,
|
National Institute of Biological Sciences
|
NTCP as a HBV Entry receptor
|
|
Jianhua Sui,
|
National Institute of Biological Sciences
|
Human Monoclonal Antibodies against HBV and Mechanisms of Action.
|
|
Haitao Guo,
|
Indiana University
|
HBV cccDNA: how is it made? how to destroy it?
|
|
|
|
|
|
Liver Cancer : Prognostic Biomarkers, Surveillance and Prevention
|
|
Fung-Lung Chung△*
|
Georgetown University
|
|
|
Hongyang Wang
|
Shanghai Jiao
Tong University
|
|
|
Eiji Hara
|
Japanese Foundation for Cancer Research
|
Oxidiative stress and d-Rom is predicting liver cancer recurrence.
|
|
Ying Fu△
|
Center for Cancer Research, NCI
|
An endogenous DNA adduct as a biomarker for liver cancer and it is prevention by antioxidants
|
|
Ke Zen/Chen-Yu Zhang
|
Nanjing University
|
microRNAs as biomarkers for liver cancer Prognosis/diagnosis.
|
|
王鐘貴
|
台北市聯合醫院
|
|
|
|
|
|
|
Function and mechanism of Hedgehog signaling in development and diseases
|
|
Steven Y Cheng△
|
Nanjing Medical University
|
The Yins and Yangs of Suppressor of fused in Hedgehog signaling
|
|
Jin Jiang△
|
UT Southwestern Medical Center at Dallas
|
|
|
Jingwu Xie
|
Indiana University School of Medicine
|
Hedgehog signaling in the metastatic niche
|
|
Aiming Liu
|
The Pennsylvania State University
|
Spop positively regulates Ihh signaling in mammalian skeletal development
|
|
Yun Zhao
|
Institute of Biochemistry and Cell Biology, CAS
|
|
|
|
|
|
|
Blood cell research and treatment: leading precision & regenerative medicine again in the
next decade
|
|
He Huang△*
|
Zhejiang University School of Medicine
|
BMT and CAR-T therapies for ALL and other blood diseases
|
|
Linzhao Cheng△
|
Johns Hopkins Medicine
|
Massive productive red blood cells from human stem cells for precise cell therapy
|
|
Tao Cheng
|
Institute of Hematology, CAS
|
Tackling blood cancer with stem cell approaches
|
|
Jianfeng Zhou,
|
Tongji Medical School in HUST
|
EBV-associated Lymphoproliferative diseases: Mechanism and Actions
|
|
Wei Li Zhao
|
Shanghai Rui-Jin Hospital
|
|
|
|
|
|
|
Recombinant fusion proteins as novel therapeutics
|
|
Wei-Chiang Shen △*
|
University of Southern California School of Pharmacy
|
Single-chain Fc dimer fusion proteins
|
|
Jeffrey Wang△
|
Western University of Health Sciences College of Pharmacy
|
Transferrin-Factor IV Fusion Protein as Novel Therapeutics for Hemophilia B
|
|
Li-Jiuan Shen
|
National Taiwan University School of Pharmacy
|
Therapeutic fusion proteins of pH-sensitive cell penetrating peptides for selective delivery to
hypoxic cancer cells
|
|
Chunmeng Sun
|
China Pharmaceutical University
|
recombinant oligopeptides for tumor-targeted delivery of macromolecule and nanocarriers
|
|
Jeffrey Lu
|
AskGene Pharmaceuticals
|
Preclinical and clinical development for innovative fusion protein molecules: case studies
|
|
|
|
|
|
Regulatory T cells in cancers and autoimmune diseases
|
|
Weiping Zou△*
|
University of Michigan Health System
|
|
|
Guangyong Peng
|
Saint Louis University University
|
T cells in Tumor microe, nviroment
|
|
Yuncai Liu
|
Tsinghua University
|
Tregs and Itch
|
|
Lingyun Sun
|
Nanjing Medical University
|
MSCs and Tregs in SLE
|
|
Wanjun Chen△*
|
National Institutes of Health
|
Generation and function of Tregs
|
|
|
|
|
|
Genomic and functional studies of human leukemia
|
|
Paul Liu△
|
NHGRI, NIH
|
|
|
Ruibao Ren△
|
Brandeis University and Shanghai Institute of Hematology
|
|
|
Dong-Er Zhang
|
UC San Diego
|
|
|
Saijuan Chen
|
Shanghai Institute of Hematology
|
|
|
Shaoguang Li
|
University of Massachusetts Medical School
|
Strategies for targeting leukemia stem cells: lessons learned from CML biology
|
|
Tao Cheng
|
CAMS Institute of Hematology in Tianjin
|
|
|
Jing Zhang
|
University of Wisconsin
|
Ras-driven leukemias: mechanisms and potential therapeutics
|
|
|
|
|
|
Paradoxical TGF‐beta Signaling in Development, Diseases and Therapeutics
|
|
Xin-Hua FENG △*
|
Zhejiang University
|
|
|
Xiao-Fan Wang
|
Duke University School of Medicine
|
Cellular senescence and TGF-beta signaling
|
|
Ying E Zhang
|
National Cancer Institute, NIH
|
Context-dependent regulation of alternative splicing by TGF-b
|
|
Xiao Yang
|
Institute of Biotechnology
|
TGF-b signaling in cardiac hypertrophy
|
|
Xiao-Jing Wang△
|
University of Colorado Anschutz Medical Campus
|
Therapeutic roles of TGF-b inhibition in cancer treatment and care
|
|
|
|
|
|
Ubiquitin signaling in inflammation and cancer
|
|
Shao-Cong Sun△
|
University of Texas MD Anderson Cancer
Center
|
Ubiquitin signaling in the regulation of inflammation and
anti-tumor immunity.
|
|
Hui-Kuan Lin△
|
Comprehensive Cancer Center, Wake
Forest School of Medicine
|
Histone ubiquitination regulates hypoxia signaling and
cancer metastasis
|
|
Jianping Jin
|
University of Texas
Health Science Center at Houston
|
Ubiquitin and ubiquitin-like proteins in inflammation
control
|
|
Ruey-Hwa Chen
|
Institute of Biological Chemistry, Academia Sinica
|
Ubiquitination in Tumor Promotion and Autophagy
Regulation
|
|
Yong Wan
|
University of Pittsburgh
|
Post-translational modification in genome stability and
carcinogenesis
|
|
|
|
|
|
Metabolic Targets for Cancer Therapy
|
|
Deliang Guo△*
|
The Ohio State University James Comprehensive Cancer Center
and College of Medicine
|
SCAP/SREBP-1, Central Regulators of Lipid Metabolism Reprogramming and Promising Targets in Cancer
|
|
Zhang Weihua△
|
University of Houston
|
Targeting Metabolisms Controlled by EGFR’s Kinase Independent Functions for Cancer Therapy
|
|
Qing Zhang
|
UNC-Chapel Hill
|
The Oxygen Sensor EglN2 Serves as a New Metabolic Target in Breast Cancer
|
|
Ming Tan
|
U of South Alabama
|
Inhibiting Dysregulated LDHA and PDK1 to Overcome HER2-targeting Resistance in
Breast Cancer
|
|
Jinke Cheng
|
Shanghai Jiao Tong University School of Medicine
|
SUMOylation Regulates Mitochondrial Metabolism in Tumorigenesis
|
|
|
|
|
|
Stem cells: engineering and disease modeling
|
|
Chuxia Deng△*
|
University of Macau
|
Transcriptome analysis of mammary stem cells and cancer stem cells
|
|
Ren-He Xu△*
|
University of Macau
|
3D, a game changer for hESC and progeny
|
|
Linzhao Cheng
|
Johns Hopkins University School of Medicine
|
Human iPS cells and genome editing for blood disease modeling and treatment
|
|
Yufang Shi
|
Soochow University Institute for Translational Medicine
|
Mesenchymal stem cells and tissue microenvironment
|
|
Junying Yu
|
NuwaCell.Ltd
|
Hematopoietic programming
|
|
|
|
|
|
Mechanisms and therapy of neurodegenerative diseases
|
|
Hui Zheng△*
|
Baylor College of Medicine
|
The autophagy and lysosomal pathway in Alzheimer’s disease
|
|
Hong Lian△
|
Zhejiang University School of Medicine
|
The role of complement receptor C3aR in synaptic dysfunction in excitotoxicity
|
|
Yueming Li
|
Memorial Sloan Kettering Cancer Center
|
Modulation of γ-Secretase
|
|
Sheng Zhang
|
The University of Texas Health Science Center at Houston
|
Selective Macroautophagy in Huntington’s disease
|
|
Riqiang Yan
|
Cleveland Clinic Learner Research Institute
|
Inhibition of BACE1 of benefiting Alzheimer’s patients.
|
|
|
|
|
|
Biomotors, single-pore sensing and RNA nanotechnology
|
|
Liqun Gu△*
|
University of Missouri,
|
Nanopore force toolbox: from mechanistic study of molecular folding/unfolding to clinical
detection of biomarkers
|
|
Jia Geng
|
Sichuan University
|
Biological and artificial nanopores for single molecule sensing
|
|
Haichen Wu
|
Institute of High Energy Physics
|
Sensing of DNA damages with protein nanopore
|
|
Peixuan Guo△*
|
The Ohio State University
|
Arginine finger regulates the sequential action of asymmetrical hexameric nanopore for single
direction DNA translocation
|
|
Zhengyi Zhao
|
Huazhong University of Science and Technology
|
Arginine finger coordinates the sequential action of asymmetrical hexameric ATPase for single direction DNA translocation
|
|
|
|
|
|
Cell death and inflammasome signaling in normal physiology and diseases
|
|
Jianke Zhang△*
|
Thomas Jefferson University
|
Apoptosis and necroptosis in immune homeostasis
|
|
Jiahui Han△
|
Xiamen University
|
Inflammasome signaling
|
|
Emad Elnemri
|
Thomas Jefferson University
|
Pyroptosis signaling
|
|
Zhenggang Liu
|
NCI/NIH
|
Cell death and caner
|
|
Francis Chan
|
University of Massachusetts
|
Cell death in colitis
|
|
liming.sun
|
Shanghai Institutes of Biological Sciences
|
Cell death signaling through MLKL
|
|
|
|
|
|
Neural development and related diseases
|
|
Jia-Wei Zhou
|
Institute of Neuroscience, SIBS, CAS
|
Role of NG2 glial cells in neuroinflammation
|
|
Zhiheng Xu△
|
Instituteof Genetics & Developmental Biology, CAS
|
Zika Virus infection and Microcephaly: Mechanism and Treatment
|
|
Yongchun Yu
|
Fudan University
|
Fear erasure facilitated by immature inhibitory neuron transplantation
|
|
Yufang Zheng
|
Fudan University
|
MiR-197 rescues the neurogenesis defects caused by autistic MECP2 mutations
|
|
Zhen-Ge Luo△*
|
Institute of Neuroscience, SIBS, CAS
|
Identification of a novel axon guidance factor expressed in Cajal-Retzius cells
|
|
|
|
|
|
Synaptic plasticity (tentative topic, will be slightly modified after knowing every speaker’s presentation title)
|
|
Yi-Shuian Huang△*(黄怡萱)
|
Institute of Biomedical Sciences, Academia Sinica
|
CPEB-controlled translation and plasticity
|
|
Yingxi Lin (林映晞)
|
Massachusetts Institute of Technology
|
Transcribing Memories
|
|
Xiao-hui Zhang
|
Beijing Normal University
|
Cortical circuitry mechanisms underlying the critical period plasticity
|
|
Eminy Lee (李小媛)
|
Institute of Biomedical Sciences, Academia Sinica
|
Galectin-3 is a novel negative regulator of memory formation
|
|
Chia-Lin Wu (吳嘉霖)
|
Chang Gung University
|
Neural circuits for long-term water-reward memory processing in Drosophila
|
|
|
|
|
|
Mechanisms of embryogenesis and organogenesis
|
|
Naihe Jing△*
|
Shanghai Institute of Biochemistry and Cell Biology
|
Spatial and temporal transcriptome of early mouse embryos
|
|
Chi-chung Hui△*
|
The Hospital for Sick Children
|
Gene regulatory network in cerebellum development and tumorigenesis
|
|
Jian Zhang
|
Institute of Genetics and Developmental Biology, CAS
|
Translation regulation of maternal RNAs in zebrafish
|
|
Ping Hu
|
Shanghai Institute of Biochemistry and Cell Biology
|
Balance of RNA binding proteins regulates myogenesis
|
|
Bo Gao
|
The University of Hong Kong
|
Wnt regulation of Planar Cell Polarity
|
|
|
|
|
|
Wnt signaling in development, stem cells, and cancer
|
|
Xi He△*
|
Boston Children’s Hospital/Harvard Medical School
|
Wnt signaling in development and stem cells
|
|
Yi Arial Zeng△
|
Institute of Biochemistry and Cell Biology, CAS
|
Wnt signaling in regulating mammary stem cell and breast cancer
|
|
Xinhua Lin
|
Fudan University
|
Regulation of intestinal patterning and homeostasis by Wnt signaling
|
|
Dianqing (Dan) Wu
|
Yale School of Medicine
|
Wnt signaling in cancer.
|
|
Ting Chen
|
National Institute of Biological Sciences����,Beijing
|
Dynamic change in Wnt signaling establishes hair follicle stem cell niche
|
|
|
|
|
|
Neural circuit of behavior
|
|
Hailan Hu△
|
Zhejiang University School of medicine
|
Neural mechanism of emotion
|
|
Yutian Wang
|
The University of British Columbia
|
AMPAR trafficking in synaptic plasticity, learning and memory
|
|
Xiaomin Li
|
Zhejiang University School of medicine
|
Cholinergic regulation of GABAergic neurons
|
|
Minmin Luo
|
National Institute of Biological Sciences����,Beijing
|
Neural circuits for reward
|
|
Hao Wang△
|
Zhejiang University School of medicine
|
Midbrain GABAergic pathways for feeding behavior
|
|
Xiaowei Chen
|
Third Military Medical University
|
Two-‐photon calcium imaging of sensory cortex circuits during a simple learning
|
|
|
|
|
|
Precision Medicine-Gene Based Therapy
|
|
Jim Hu△*
|
Hospital for Sick Children
|
Spatial and temporal transcriptome of early mouse embryos
|
|
Xiao Xiao △*
|
UNC Eshelman School of Pharmacy
|
Muscle as a platform for gene therapy
|
|
Weidong Xiao
|
Temple University
|
Optimization of clotting factor VIII for hemophilia A gene therapy
|
|
Zhijian Wu
|
National Institutes of Health
|
Gene replacement therapy for X-Linked Retinitis Pigmentosa (XLRP)
|
|
Yichang Jia
|
Tsinghua University
|
Discovery and Gene Repair for Neurodegenerative Diseases
|
|
|
|
|
|
Immunotherapy
|
|
Dongfang Liu
|
Houston Methodist Research Institute
|
CAR-NK Immunotherapy for Infectious Diseases
|
|
Yi Zhang
|
Zhengzhou University
|
Dissecting Tumor Microenvironment for Treatment of Cancer
|
|
Jianhua Yu
|
The Ohio State University
|
Natural Killer Cell Biology and Immunotherapy
|
|
Rongfu Wang△
|
Houston Methodist Research Institute
|
Cancer Immunotherapy
|
|
Wei-dong Han△
|
Chinese PLA General Hospita
|
CAR T therapy in liquid and solid tumors
|
