Host proviral and antiviral factors for SARS-CoV-2

{ 'indexed': {'date-parts': [[2024, 2, 3]], 'date-time': '2024-02-03T19:01:56Z', 'timestamp': 1706986916647}, 'reference-count': 138, 'publisher': 'Springer Science and Business Media LLC', 'issue': '6', 'license': [ { 'start': { 'date-parts': [[2021, 9, 11]], 'date-time': '2021-09-11T00:00:00Z', 'timestamp': 1631318400000}, 'content-version': 'tdm', 'delay-in-days': 0, 'URL': 'https://www.springer.com/tdm'}, { 'start': { 'date-parts': [[2021, 9, 11]], 'date-time': '2021-09-11T00:00:00Z', 'timestamp': 1631318400000}, 'content-version': 'vor', 'delay-in-days': 0, 'URL': 'https://www.springer.com/tdm'}], 'funder': [ { 'name': 'National Key Plan for Research and Development of China', 'award': ['2016YFD0500300']}, { 'DOI': '10.13039/501100001809', 'name': 'National Natural Science Foundation of China', 'doi-asserted-by': 'publisher', 'award': ['81871663', '82072270']}, { 'name': 'Academic promotion programme of Shandong First Medical University', 'award': ['2019LJ001']}], 'content-domain': {'domain': ['link.springer.com'], 'crossmark-restriction': False}, 'published-print': {'date-parts': [[2021, 12]]}, 'DOI': '10.1007/s11262-021-01869-2', 'type': 'journal-article', 'created': {'date-parts': [[2021, 9, 12]], 'date-time': '2021-09-12T12:04:13Z', 'timestamp': 1631448253000}, 'page': '475-488', 'update-policy': 'http://dx.doi.org/10.1007/springer_crossmark_policy', 'source': 'Crossref', 'is-referenced-by-count': 11, 'title': 'Host proviral and antiviral factors for SARS-CoV-2', 'prefix': '10.1007', 'volume': '57', 'author': [ {'given': 'Lu', 'family': 'Lv', 'sequence': 'first', 'affiliation': []}, { 'ORCID': 'http://orcid.org/0000-0002-7015-9661', 'authenticated-orcid': False, 'given': 'Leiliang', 'family': 'Zhang', 'sequence': 'additional', 'affiliation': []}], 'member': '297', 'published-online': {'date-parts': [[2021, 9, 11]]}, 'reference': [ { 'issue': '10223', 'key': '1869_CR1', 'doi-asserted-by': 'publisher', 'first-page': '497', 'DOI': '10.1016/S0140-6736(20)30183-5', 'volume': '395', 'author': 'C Huang', 'year': '2020', 'unstructured': 'Huang C, Wang Y, Li X, Ren L, Zhao J, Hu Y et al (2020) Clinical ' 'features of patients infected with 2019 novel coronavirus in Wuhan ' 'China. Lancet 395(10223):497–506', 'journal-title': 'Lancet'}, { 'issue': '2', 'key': '1869_CR2', 'doi-asserted-by': 'publisher', 'first-page': 'taaa021', 'DOI': '10.1093/jtm/taaa021', 'volume': '27', 'author': 'Y Liu', 'year': '2020', 'unstructured': 'Liu Y, Gayle AA, Wilder-Smith A, Rocklöv J (2020) The reproductive ' 'number of COVID-19 is higher compared to SARS coronavirus. J Travel Med ' '27(2):taaa021', 'journal-title': 'J Travel Med'}, { 'issue': '3', 'key': '1869_CR3', 'doi-asserted-by': 'publisher', 'first-page': '325', 'DOI': '10.1016/j.chom.2020.02.001', 'volume': '27', 'author': 'A Wu', 'year': '2020', 'unstructured': 'Wu A, Peng Y, Huang B, Ding X, Wang X, Niu P et al (2020) Genome ' 'composition and divergence of the novel coronavirus (2019-nCoV) ' 'originating in China. Cell Host Microbe 27(3):325–328', 'journal-title': 'Cell Host Microbe'}, { 'issue': '10224', 'key': '1869_CR4', 'doi-asserted-by': 'publisher', 'first-page': '565', 'DOI': '10.1016/S0140-6736(20)30251-8', 'volume': '395', 'author': 'R Lu', 'year': '2020', 'unstructured': 'Lu R, Zhao X, Li J, Niu P, Yang B, Wu H et al (2020) Genomic ' 'characterisation and epidemiology of 2019 novel coronavirus: ' 'implications for virus origins and receptor binding. Lancet ' '395(10224):565–574', 'journal-title': 'Lancet'}, { 'issue': '7798', 'key': '1869_CR5', 'doi-asserted-by': 'publisher', 'first-page': '270', 'DOI': '10.1038/s41586-020-2012-7', 'volume': '579', 'author': 'P Zhou', 'year': '2020', 'unstructured': 'Zhou P, Yang XL, Wang XG, Hu B, Zhang L, Zhang W et al (2020) A ' 'pneumonia outbreak associated with a new coronavirus of probable bat ' 'origin. Nature 579(7798):270–273', 'journal-title': 'Nature'}, { 'key': '1869_CR6', 'doi-asserted-by': 'publisher', 'first-page': '1022', 'DOI': '10.3389/fimmu.2020.01022', 'volume': '11', 'author': 'Y Liang', 'year': '2020', 'unstructured': 'Liang Y, Wang ML, Chien CS, Yarmishyn AA, Yang YP, Lai WY et al (2020) ' 'Highlight of immune pathogenic response and hematopathologic effect in ' 'SARS-CoV, MERS-CoV, and SARS-Cov-2 infection. Front Immunol 11:1022', 'journal-title': 'Front Immunol'}, { 'issue': '4', 'key': '1869_CR7', 'doi-asserted-by': 'publisher', 'first-page': '894', 'DOI': '10.1016/j.cell.2020.03.045', 'volume': '181', 'author': 'Q Wang', 'year': '2020', 'unstructured': 'Wang Q, Zhang Y, Wu L, Niu S, Song C, Zhang Z et al (2020) Structural ' 'and functional basis of SARS-CoV-2 entry by using human ACE2. Cell ' '181(4):894-904.e9', 'journal-title': 'Cell'}, { 'issue': '4', 'key': '1869_CR8', 'doi-asserted-by': 'publisher', 'first-page': '562', 'DOI': '10.1038/s41564-020-0688-y', 'volume': '5', 'author': 'M Letko', 'year': '2020', 'unstructured': 'Letko M, Marzi A, Munster V (2020) Functional assessment of cell entry ' 'and receptor usage for SARS-CoV-2 and other lineage B betacoronaviruses. ' 'Nat Microbiol 5(4):562–569', 'journal-title': 'Nat Microbiol'}, { 'issue': '21', 'key': '1869_CR9', 'doi-asserted-by': 'publisher', 'first-page': '11727', 'DOI': '10.1073/pnas.2003138117', 'volume': '117', 'author': 'J Shang', 'year': '2020', 'unstructured': 'Shang J, Wan Y, Luo C, Ye G, Geng Q, Auerbach A et al (2020) Cell entry ' 'mechanisms of SARS-CoV-2. Proc Natl Acad Sci USA 117(21):11727–11734', 'journal-title': 'Proc Natl Acad Sci USA'}, { 'issue': '1', 'key': '1869_CR10', 'doi-asserted-by': 'publisher', 'first-page': '1620', 'DOI': '10.1038/s41467-020-15562-9', 'volume': '11', 'author': 'X Ou', 'year': '2020', 'unstructured': 'Ou X, Liu Y, Lei X, Li P, Mi D, Ren L et al (2020) Characterization of ' 'spike glycoprotein of SARS-CoV-2 on virus entry and its immune ' 'cross-reactivity with SARS-CoV. Nat Commun 11(1):1620', 'journal-title': 'Nat Commun'}, { 'issue': '7816', 'key': '1869_CR11', 'doi-asserted-by': 'publisher', 'first-page': '459', 'DOI': '10.1038/s41586-020-2286-9', 'volume': '583', 'author': 'DE Gordon', 'year': '2020', 'unstructured': 'Gordon DE, Jang GM, Bouhaddou M, Xu J, Obernier K, White KM et al (2020) ' 'A SARS-CoV-2 protein interaction map reveals targets for drug ' 'repurposing. Nature 583(7816):459–468', 'journal-title': 'Nature'}, { 'issue': '1', 'key': '1869_CR12', 'doi-asserted-by': 'publisher', 'first-page': '120', 'DOI': '10.1016/j.cell.2020.12.006', 'volume': '184', 'author': 'WM Schneider', 'year': '2021', 'unstructured': 'Schneider WM, Luna JM, Hoffmann HH, Sánchez-Rivera FJ, Leal AA, Ashbrook ' 'AW et al (2021) Genome-scale identification of SARS-CoV-2 and ' 'pan-coronavirus host factor networks. Cell 184(1):120–32.e14', 'journal-title': 'Cell'}, { 'issue': '20', 'key': '1869_CR13', 'first-page': '31392', 'volume': 'S0092–8674', 'author': 'J Wei', 'year': '2020', 'unstructured': 'Wei J, Alfajaro MM, DeWeirdt PC, Hanna RE, Lu-Culligan WJ, Cai WL et al ' '(2020) Genome-wide CRISPR screens reveal host factors critical for ' 'SARS-CoV-2 infection. Cell S0092–8674(20):31392–31401', 'journal-title': 'Cell'}, { 'issue': '20', 'key': '1869_CR14', 'first-page': '31394', 'volume': 'S0092–8674', 'author': 'Z Daniloski', 'year': '2020', 'unstructured': 'Daniloski Z, Jordan TX, Wessels HH, Hoagland DA, Kasela S, Legut M et al ' '(2020) Identification of required host factors for SARS-CoV-2 infection ' 'in human cells. Cell S0092–8674(20):31394–31395', 'journal-title': 'Cell'}, { 'issue': '6965', 'key': '1869_CR15', 'doi-asserted-by': 'publisher', 'first-page': '450', 'DOI': '10.1038/nature02145', 'volume': '426', 'author': 'W Li', 'year': '2003', 'unstructured': 'Li W, Moore MJ, Vasilieva N, Sui J, Wong SK, Berne MA et al (2003) ' 'Angiotensin-converting enzyme 2 is a functional receptor for the SARS ' 'coronavirus. Nature 426(6965):450–454', 'journal-title': 'Nature'}, { 'issue': '22', 'key': '1869_CR16', 'doi-asserted-by': 'publisher', 'first-page': '7988', 'DOI': '10.1073/pnas.0409465102', 'volume': '102', 'author': 'H Hofmann', 'year': '2005', 'unstructured': 'Hofmann H, Pyrc K, van der Hoek L, Geier M, Berkhout B, Pöhlmann S ' '(2005) Human coronavirus NL63 employs the severe acute respiratory ' 'syndrome coronavirus receptor for cellular entry. Proc Natl Acad Sci USA ' '102(22):7988–7993', 'journal-title': 'Proc Natl Acad Sci USA'}, { 'issue': '6483', 'key': '1869_CR17', 'doi-asserted-by': 'publisher', 'first-page': '1260', 'DOI': '10.1126/science.abb2507', 'volume': '367', 'author': 'D Wrapp', 'year': '2020', 'unstructured': 'Wrapp D, Wang N, Corbett KS, Goldsmith JA, Hsieh CL, Abiona O et al ' '(2020) Cryo-EM structure of the 2019-nCoV spike in the prefusion ' 'conformation. Science 367(6483):1260–1263', 'journal-title': 'Science'}, { 'issue': '7807', 'key': '1869_CR18', 'doi-asserted-by': 'publisher', 'first-page': '221', 'DOI': '10.1038/s41586-020-2179-y', 'volume': '581', 'author': 'J Shang', 'year': '2020', 'unstructured': 'Shang J, Ye G, Shi K, Wan Y, Luo C, Aihara H et al (2020) Structural ' 'basis of receptor recognition by SARS-CoV-2. Nature 581(7807):221–224', 'journal-title': 'Nature'}, { 'issue': '2', 'key': '1869_CR19', 'doi-asserted-by': 'publisher', 'first-page': '271', 'DOI': '10.1016/j.cell.2020.02.052', 'volume': '181', 'author': 'M Hoffmann', 'year': '2020', 'unstructured': 'Hoffmann M, Kleine-Weber H, Schroeder S, Krüger N, Herrler T, Erichsen S ' 'et al (2020) SARS-CoV-2 cell entry depends on ACE2 and TMPRSS2 and is ' 'blocked by a clinically proven protease inhibitor. Cell 181(2):271–80.e8', 'journal-title': 'Cell'}, { 'issue': '4', 'key': '1869_CR20', 'doi-asserted-by': 'publisher', 'first-page': '905', 'DOI': '10.1016/j.cell.2020.04.004', 'volume': '181', 'author': 'V Monteil', 'year': '2020', 'unstructured': 'Monteil V, Kwon H, Prado P, Hagelkrüys A, Wimmer RA, Stahl M et al ' '(2020) Inhibition of SARS-CoV-2 infections in engineered human tissues ' 'using clinical-grade soluble human ACE2. Cell 181(4):905–13.e7', 'journal-title': 'Cell'}, { 'issue': '7', 'key': '1869_CR21', 'doi-asserted-by': 'publisher', 'first-page': 'e9610', 'DOI': '10.15252/msb.20209610', 'volume': '16', 'author': 'F Hikmet', 'year': '2020', 'unstructured': 'Hikmet F, Méar L, Edvinsson Å, Micke P, Uhlén M, Lindskog C (2020) The ' 'protein expression profile of ACE2 in human tissues. Mol Syst Biol ' '16(7):e9610', 'journal-title': 'Mol Syst Biol'}, { 'issue': '7378', 'key': '1869_CR22', 'doi-asserted-by': 'publisher', 'first-page': '534', 'DOI': '10.1038/nature10606', 'volume': '480', 'author': 'C Crosnier', 'year': '2011', 'unstructured': 'Crosnier C, Bustamante LY, Bartholdson SJ, Bei AK, Theron M, Uchikawa M ' 'et al (2011) Basigin is a receptor essential for erythrocyte invasion by ' 'plasmodium falciparum. Nature 480(7378):534–537', 'journal-title': 'Nature'}, { 'issue': '5', 'key': '1869_CR23', 'doi-asserted-by': 'publisher', 'first-page': '755', 'DOI': '10.1086/427811', 'volume': '191', 'author': 'Z Chen', 'year': '2005', 'unstructured': 'Chen Z, Mi L, Xu J, Yu J, Wang X, Jiang J et al (2005) Function of ' 'HAb18G/CD147 in invasion of host cells by severe acute respiratory ' 'syndrome coronavirus. J Infect Dis 191(5):755–760', 'journal-title': 'J Infect Dis'}, { 'issue': '1', 'key': '1869_CR24', 'doi-asserted-by': 'publisher', 'first-page': '283', 'DOI': '10.1038/s41392-020-00426-x', 'volume': '5', 'author': 'K Wang', 'year': '2020', 'unstructured': 'Wang K, Chen W, Zhang Z, Deng Y, Lian JQ, Du P et al (2020) CD147-spike ' 'protein is a novel route for SARS-CoV-2 infection to host cells. Signal ' 'Transduct Target Ther 5(1):283', 'journal-title': 'Signal Transduct Target Ther'}, { 'issue': '10', 'key': '1869_CR25', 'first-page': '5016', 'volume': '11', 'author': "JP O'Bryan", 'year': '1991', 'unstructured': 'O’Bryan JP, Frye RA, Cogswell PC, Neubauer A, Kitch B, Prokop C et al ' '(1991) Axl, a transforming gene isolated from primary human myeloid ' 'leukemia cells, encodes a novel receptor tyrosine kinase. Mol Cell Biol ' '11(10):5016–5031', 'journal-title': 'Mol Cell Biol'}, { 'issue': '2', 'key': '1869_CR26', 'doi-asserted-by': 'publisher', 'first-page': '126', 'DOI': '10.1038/s41422-020-00460-y', 'volume': '31', 'author': 'S Wang', 'year': '2021', 'unstructured': 'Wang S, Qiu Z, Hou Y, Deng X, Xu W, Zheng T et al (2021) AXL is a ' 'candidate receptor for SARS-CoV-2 that promotes infection of pulmonary ' 'and bronchial epithelial cells. Cell Res 31(2):126–140', 'journal-title': 'Cell Res'}, { 'issue': '7', 'key': '1869_CR27', 'doi-asserted-by': 'publisher', 'first-page': '596', 'DOI': '10.3390/v11070596', 'volume': '11', 'author': 'V Cagno', 'year': '2019', 'unstructured': 'Cagno V, Tseligka ED, Jones ST, Tapparel C (2019) Heparan sulfate ' 'proteoglycans and viral attachment: true receptors or adaptation bias? ' 'Viruses 11(7):596', 'journal-title': 'Viruses'}, { 'issue': '1', 'key': '1869_CR28', 'doi-asserted-by': 'publisher', 'first-page': '52', 'DOI': '10.1128/jvi.63.1.52-58.1989', 'volume': '63', 'author': 'D WuDunn', 'year': '1989', 'unstructured': 'WuDunn D, Spear PG (1989) Initial interaction of herpes simplex virus ' 'with cells is binding to heparan sulfate. J Virol 63(1):52–58', 'journal-title': 'J Virol'}, { 'issue': '4', 'key': '1869_CR29', 'doi-asserted-by': 'publisher', 'first-page': '2233', 'DOI': '10.1128/jvi.69.4.2233-2239.1995', 'volume': '69', 'author': 'G Roderiquez', 'year': '1995', 'unstructured': 'Roderiquez G, Oravecz T, Yanagishita M, Bou-Habib DC, Mostowski H, ' 'Norcross MA (1995) Mediation of human immunodeficiency virus type 1 ' 'binding by interaction of cell surface heparan sulfate proteoglycans ' 'with the V3 region of envelope gp120-gp41. J Virol 69(4):2233–2239', 'journal-title': 'J Virol'}, { 'issue': '22', 'key': '1869_CR30', 'doi-asserted-by': 'publisher', 'first-page': '13221', 'DOI': '10.1128/JVI.02078-14', 'volume': '88', 'author': 'A Milewska', 'year': '2014', 'unstructured': 'Milewska A, Zarebski M, Nowak P, Stozek K, Potempa J, Pyrc K (2014) ' 'Human coronavirus NL63 utilizes heparan sulfate proteoglycans for ' 'attachment to target cells. J Virol 88(22):13221–13230', 'journal-title': 'J Virol'}, { 'issue': '4', 'key': '1869_CR31', 'doi-asserted-by': 'publisher', 'first-page': '1043', 'DOI': '10.1016/j.cell.2020.09.033', 'volume': '183', 'author': 'TM Clausen', 'year': '2020', 'unstructured': 'Clausen TM, Sandoval DR, Spliid CB, Pihl J, Perrett HR, Painter CD et al ' '(2020) SARS-CoV-2 infection depends on cellular heparan sulfate and ' 'ACE2. Cell 183(4):1043–57.e15', 'journal-title': 'Cell'}, { 'issue': '1', 'key': '1869_CR32', 'doi-asserted-by': 'publisher', 'first-page': '134', 'DOI': '10.1038/s41467-020-20457-w', 'volume': '12', 'author': 'H Chu', 'year': '2021', 'unstructured': 'Chu H, Hu B, Huang X, Chai Y, Zhou D, Wang Y et al (2021) Host and viral ' 'determinants for efficient SARS-CoV-2 infection of the human lung. Nat ' 'Commun 12(1):134', 'journal-title': 'Nat Commun'}, { 'issue': '2', 'key': '1869_CR33', 'doi-asserted-by': 'publisher', 'first-page': '281', 'DOI': '10.1016/j.cell.2020.02.058', 'volume': '181', 'author': 'AC Walls', 'year': '2020', 'unstructured': 'Walls AC, Park YJ, Tortorici MA, Wall A, McGuire AT, Veesler D (2020) ' 'Structure, function, and antigenicity of the SARS-CoV-2 spike ' 'glycoprotein. Cell 181(2):281–92.e6', 'journal-title': 'Cell'}, { 'issue': '4', 'key': '1869_CR34', 'doi-asserted-by': 'publisher', 'first-page': '779', 'DOI': '10.1016/j.molcel.2020.04.022', 'volume': '78', 'author': 'M Hoffmann', 'year': '2020', 'unstructured': 'Hoffmann M, Kleine-Weber H, Pöhlmann S (2020) A Multibasic cleavage site ' 'in the spike protein of SARS-CoV-2 is essential for infection of human ' 'lung cells. Mol Cell 78(4):779–84.e5', 'journal-title': 'Mol Cell'}, { 'issue': '38', 'key': '1869_CR35', 'doi-asserted-by': 'publisher', 'first-page': '16157', 'DOI': '10.1073/pnas.0908201106', 'volume': '106', 'author': 'T Teesalu', 'year': '2009', 'unstructured': 'Teesalu T, Sugahara KN, Kotamraju VR, Ruoslahti E (2009) C-end rule ' 'peptides mediate neuropilin-1-dependent cell, vascular, and tissue ' 'penetration. Proc Natl Acad Sci USA 106(38):16157–16162', 'journal-title': 'Proc Natl Acad Sci USA'}, { 'issue': '6518', 'key': '1869_CR36', 'doi-asserted-by': 'publisher', 'first-page': '861', 'DOI': '10.1126/science.abd3072', 'volume': '370', 'author': 'JL Daly', 'year': '2020', 'unstructured': 'Daly JL, Simonetti B, Klein K, Chen KE, Williamson MK, Antón-Plágaro C ' 'et al (2020) Neuropilin-1 is a host factor for SARS-CoV-2 infection. ' 'Science 370(6518):861–865', 'journal-title': 'Science'}, { 'issue': '5', 'key': '1869_CR37', 'doi-asserted-by': 'publisher', 'first-page': '2215', 'DOI': '10.1021/jm901755g', 'volume': '53', 'author': 'A Jarvis', 'year': '2010', 'unstructured': 'Jarvis A, Allerston CK, Jia H, Herzog B, Garza-Garcia A, Winfield N et ' 'al (2010) Small molecule inhibitors of the neuropilin-1 vascular ' 'endothelial growth factor A (VEGF-A) interaction. J Med Chem ' '53(5):2215–2226', 'journal-title': 'J Med Chem'}, { 'issue': '6518', 'key': '1869_CR38', 'doi-asserted-by': 'publisher', 'first-page': '856', 'DOI': '10.1126/science.abd2985', 'volume': '370', 'author': 'L Cantuti-Castelvetri', 'year': '2020', 'unstructured': 'Cantuti-Castelvetri L, Ojha R, Pedro LD, Djannatian M, Franz J, Kuivanen ' 'S et al (2020) Neuropilin-1 facilitates SARS-CoV-2 cell entry and ' 'infectivity. Science 370(6518):856–860', 'journal-title': 'Science'}, { 'issue': '5248', 'key': '1869_CR39', 'doi-asserted-by': 'publisher', 'first-page': '518', 'DOI': '10.1126/science.271.5248.518', 'volume': '271', 'author': 'S Acton', 'year': '1996', 'unstructured': 'Acton S, Rigotti A, Landschulz KT, Xu S, Hobbs HH, Krieger M (1996) ' 'Identification of scavenger receptor SR-BI as a high density lipoprotein ' 'receptor. Science 271(5248):518–520', 'journal-title': 'Science'}, { 'key': '1869_CR40', 'doi-asserted-by': 'publisher', 'first-page': '95', 'DOI': '10.1146/annurev-physiol-021317-121550', 'volume': '80', 'author': 'WJ Shen', 'year': '2018', 'unstructured': 'Shen WJ, Azhar S, Kraemer FB (2018) SR-B1: a unique multifunctional ' 'receptor for cholesterol influx and efflux. Annu Rev Physiol 80:95–116', 'journal-title': 'Annu Rev Physiol'}, { 'key': '1869_CR41', 'doi-asserted-by': 'publisher', 'first-page': '234', 'DOI': '10.1016/j.virol.2017.07.024', 'volume': '510', 'author': 'S Bajimaya', 'year': '2017', 'unstructured': 'Bajimaya S, Frankl T, Hayashi T, Takimoto T (2017) Cholesterol is ' 'required for stability and infectivity of influenza A and respiratory ' 'syncytial viruses. Virology 510:234–241', 'journal-title': 'Virology'}, { 'key': '1869_CR42', 'doi-asserted-by': 'publisher', 'first-page': '388', 'DOI': '10.3389/fcimb.2018.00388', 'volume': '8', 'author': 'JF Osuna-Ramos', 'year': '2018', 'unstructured': 'Osuna-Ramos JF, Reyes-Ruiz JM, Del Ángel RM (2018) The role of host ' 'cholesterol during flavivirus infection. Front Cell Infect Microbiol ' '8:388', 'journal-title': 'Front Cell Infect Microbiol'}, { 'issue': '1', 'key': '1869_CR43', 'doi-asserted-by': 'publisher', 'first-page': '45', 'DOI': '10.1186/s12917-018-1366-7', 'volume': '14', 'author': 'X Dou', 'year': '2018', 'unstructured': 'Dou X, Li Y, Han J, Zarlenga DS, Zhu W, Ren X et al (2018) Cholesterol ' 'of lipid rafts is a key determinant for entry and post-entry control of ' 'porcine rotavirus infection. BMC Vet Res 14(1):45', 'journal-title': 'BMC Vet Res'}, { 'issue': '1', 'key': '1869_CR44', 'doi-asserted-by': 'publisher', 'first-page': '96', 'DOI': '10.1016/j.micinf.2006.10.015', 'volume': '9', 'author': 'GM Li', 'year': '2007', 'unstructured': 'Li GM, Li YG, Yamate M, Li SM, Ikuta K (2007) Lipid rafts play an ' 'important role in the early stage of severe acute respiratory ' 'syndrome-coronavirus life cycle. Microbes Infect 9(1):96–102', 'journal-title': 'Microbes Infect'}, { 'issue': '1', 'key': '1869_CR45', 'doi-asserted-by': 'publisher', 'first-page': '34', 'DOI': '10.1128/JVI.02199-08', 'volume': '84', 'author': 'MT Catanese', 'year': '2010', 'unstructured': 'Catanese MT, Ansuini H, Graziani R, Huby T, Moreau M, Ball JK et al ' '(2010) Role of scavenger receptor class B type I in hepatitis C virus ' 'entry: kinetics and molecular determinants. J Virol 84(1):34–43', 'journal-title': 'J Virol'}, { 'issue': '12', 'key': '1869_CR46', 'doi-asserted-by': 'publisher', 'first-page': '1391', 'DOI': '10.1038/s42255-020-00324-0', 'volume': '2', 'author': 'C Wei', 'year': '2020', 'unstructured': 'Wei C, Wan L, Yan Q, Wang X, Zhang J, Yang X et al (2020) HDL-scavenger ' 'receptor B type 1 facilitates SARS-CoV-2 entry. Nat Metab ' '2(12):1391–1400', 'journal-title': 'Nat Metab'}, { 'key': '1869_CR47', 'doi-asserted-by': 'crossref', 'unstructured': 'Gu Yunqing, Cao Jun, Zhang Xinyu, Gao Hai, Wang Yuyan, Wang Jia, et al ' '(2020) Interaction network of SARS-CoV-2 with host receptome through ' 'spike protein. bioRxiv:2020.09.09.287508', 'DOI': '10.1101/2020.09.09.287508'}, { 'issue': '6', 'key': '1869_CR48', 'doi-asserted-by': 'publisher', 'first-page': '590', 'DOI': '10.1056/NEJMc2011400', 'volume': '383', 'author': 'VG Puelles', 'year': '2020', 'unstructured': 'Puelles VG, Lütgehetmann M, Lindenmeyer MT, Sperhake JP, Wong MN, ' 'Allweiss L et al (2020) Multiorgan and renal tropism of SARS-CoV-2. N ' 'Engl J Med 383(6):590–592', 'journal-title': 'N Engl J Med'}, { 'issue': '8', 'key': '1869_CR49', 'doi-asserted-by': 'publisher', 'first-page': '970', 'DOI': '10.1038/s41587-020-0602-4', 'volume': '38', 'author': 'RL Chua', 'year': '2020', 'unstructured': 'Chua RL, Lukassen S, Trump S, Hennig BP, Wendisch D, Pott F et al (2020) ' 'COVID-19 severity correlates with airway epithelium-immune cell ' 'interactions identified by single-cell analysis. Nat Biotechnol ' '38(8):970–979', 'journal-title': 'Nat Biotechnol'}, { 'issue': '5', 'key': '1869_CR50', 'doi-asserted-by': 'publisher', 'first-page': '681', 'DOI': '10.1038/s41591-020-0868-6', 'volume': '26', 'author': 'W Sungnak', 'year': '2020', 'unstructured': 'Sungnak W, Huang N, Bécavin C, Berg M, Queen R, Litvinukova M et al ' '(2020) SARS-CoV-2 entry factors are highly expressed in nasal epithelial ' 'cells together with innate immune genes. Nat Med 26(5):681–687', 'journal-title': 'Nat Med'}, { 'key': '1869_CR51', 'doi-asserted-by': 'publisher', 'first-page': '40', 'DOI': '10.1016/j.smim.2018.02.011', 'volume': '38', 'author': 'U Andersson', 'year': '2018', 'unstructured': 'Andersson U, Yang H, Harris H (2018) High-mobility group box 1 protein ' '(HMGB1) operates as an alarmin outside as well as inside cells. Semin ' 'Immunol 38:40–48', 'journal-title': 'Semin Immunol'}, { 'issue': '1', 'key': '1869_CR52', 'doi-asserted-by': 'publisher', 'first-page': '42', 'DOI': '10.1186/s10020-020-00172-4', 'volume': '26', 'author': 'U Andersson', 'year': '2020', 'unstructured': 'Andersson U, Ottestad W, Tracey KJ (2020) Extracellular HMGB1: a ' 'therapeutic target in severe pulmonary inflammation including COVID-19? ' 'Mol Med 26(1):42', 'journal-title': 'Mol Med'}, { 'issue': '11', 'key': '1869_CR53', 'doi-asserted-by': 'publisher', 'first-page': '1358', 'DOI': '10.1164/rccm.201906-1149OC', 'volume': '201', 'author': 'J Simpson', 'year': '2020', 'unstructured': 'Simpson J, Loh Z, Ullah MA, Lynch JP, Werder RB, Collinson N et al ' '(2020) Respiratory syncytial virus infection promotes necroptosis and ' 'HMGB1 release by airway epithelial cells. Am J Respir Crit Care Med ' '201(11):1358–1371', 'journal-title': 'Am J Respir Crit Care Med'}, { 'issue': '1', 'key': '1869_CR54', 'doi-asserted-by': 'publisher', 'first-page': '961', 'DOI': '10.1038/s41467-021-21213-4', 'volume': '12', 'author': 'Y Zhu', 'year': '2021', 'unstructured': 'Zhu Y, Feng F, Hu G, Wang Y, Yu Y, Zhu Y et al (2021) A genome-wide ' 'CRISPR screen identifies host factors that regulate SARS-CoV-2 entry. ' 'Nat Commun 12(1):961', 'journal-title': 'Nat Commun'}, { 'issue': '2', 'key': '1869_CR55', 'doi-asserted-by': 'publisher', 'first-page': '267', 'DOI': '10.1016/j.chom.2020.12.009', 'volume': '29', 'author': 'HH Hoffmann', 'year': '2021', 'unstructured': 'Hoffmann HH, Sánchez-Rivera FJ, Schneider WM, Luna JM, Soto-Feliciano ' 'YM, Ashbrook AW et al (2021) Functional interrogation of a SARS-CoV-2 ' 'host protein interactome identifies unique and shared coronavirus host ' 'factors. Cell Host Microbe 29(2):267–80.e5', 'journal-title': 'Cell Host Microbe'}, { 'key': '1869_CR56', 'doi-asserted-by': 'publisher', 'first-page': '552925', 'DOI': '10.3389/fimmu.2020.552925', 'volume': '11', 'author': 'NM Beeraka', 'year': '2020', 'unstructured': 'Beeraka NM, Sadhu SP, Madhunapantula SV, Rao Pragada R, Svistunov AA, ' 'Nikolenko VN et al (2020) Strategies for targeting SARS CoV-2: small ' 'molecule inhibitors-the current status. Front Immunol 11:552925', 'journal-title': 'Front Immunol'}, { 'issue': '2', 'key': '1869_CR57', 'doi-asserted-by': 'publisher', 'first-page': '873', 'DOI': '10.1128/JVI.02062-10', 'volume': '85', 'author': 'A Shulla', 'year': '2011', 'unstructured': 'Shulla A, Heald-Sargent T, Subramanya G, Zhao J, Perlman S, Gallagher T ' '(2011) A transmembrane serine protease is linked to the severe acute ' 'respiratory syndrome coronavirus receptor and activates virus entry. J ' 'Virol 85(2):873–882', 'journal-title': 'J Virol'}, { 'issue': '12', 'key': '1869_CR58', 'doi-asserted-by': 'publisher', 'first-page': '6537', 'DOI': '10.1128/JVI.00094-12', 'volume': '86', 'author': 'M Kawase', 'year': '2012', 'unstructured': 'Kawase M, Shirato K, van der Hoek L, Taguchi F, Matsuyama S (2012) ' 'Simultaneous treatment of human bronchial epithelial cells with serine ' 'and cysteine protease inhibitors prevents severe acute respiratory ' 'syndrome coronavirus entry. J Virol 86(12):6537–6545', 'journal-title': 'J Virol'}, { 'issue': '5', 'key': '1869_CR59', 'doi-asserted-by': 'publisher', 'first-page': '1016', 'DOI': '10.1016/j.cell.2020.04.035', 'volume': '181', 'author': 'CGK Ziegler', 'year': '2020', 'unstructured': 'Ziegler CGK, Allon SJ, Nyquist SK, Mbano IM, Miao VN, Tzouanas CN et al ' '(2020) SARS-CoV-2 receptor ACE2 is an interferon-stimulated gene in ' 'human airway epithelial cells and is detected in specific cell subsets ' 'across tissues. Cell 181(5):1016–35.e19', 'journal-title': 'Cell'}, { 'issue': '4', 'key': '1869_CR60', 'doi-asserted-by': 'publisher', 'first-page': '537', 'DOI': '10.1016/j.jtos.2020.06.007', 'volume': '18', 'author': 'L Zhou', 'year': '2020', 'unstructured': 'Zhou L, Xu Z, Castiglione GM, Soiberman US, Eberhart CG, Duh EJ (2020) ' 'ACE2 and TMPRSS2 are expressed on the human ocular surface, suggesting ' 'susceptibility to SARS-CoV-2 infection. Ocul Surf 18(4):537–544', 'journal-title': 'Ocul Surf'}, { 'issue': '8', 'key': '1869_CR61', 'doi-asserted-by': 'publisher', 'first-page': 'e1073', 'DOI': '10.1002/cti2.1073', 'volume': '8', 'author': 'E Braun', 'year': '2019', 'unstructured': 'Braun E, Sauter D (2019) Furin-mediated protein processing in infectious ' 'diseases and cancer. Clin Transl Immunol 8(8):e1073', 'journal-title': 'Clin Transl Immunol'}, { 'issue': '9', 'key': '1869_CR62', 'doi-asserted-by': 'publisher', 'first-page': '837', 'DOI': '10.3390/v11090837', 'volume': '11', 'author': 'G Izaguirre', 'year': '2019', 'unstructured': 'Izaguirre G (2019) The proteolytic regulation of virus cell entry by ' 'furin and other proprotein convertases. Viruses 11(9):837', 'journal-title': 'Viruses'}, { 'issue': '2', 'key': '1869_CR63', 'doi-asserted-by': 'publisher', 'first-page': '1254', 'DOI': '10.1016/j.celrep.2020.108254', 'volume': '33', 'author': 'YW Cheng', 'year': '2020', 'unstructured': 'Cheng YW, Chao TL, Li CL, Chiu MF, Kao HC, Wang SH et al (2020) Furin ' 'inhibitors block SARS-CoV-2 spike protein cleavage to suppress virus ' 'production and cytopathic effects. Cell Rep 33(2):1254', 'journal-title': 'Cell Rep'}, { 'issue': '1', 'key': '1869_CR64', 'doi-asserted-by': 'publisher', 'first-page': '92', 'DOI': '10.1038/s41392-020-0184-0', 'volume': '5', 'author': 'S Xia', 'year': '2020', 'unstructured': 'Xia S, Lan Q, Su S, Wang X, Xu W, Liu Z et al (2020) The role of furin ' 'cleavage site in SARS-CoV-2 spike protein-mediated membrane fusion in ' 'the presence or absence of trypsin. Signal Transduct Target Ther 5(1):92', 'journal-title': 'Signal Transduct Target Ther'}, { 'issue': '33', 'key': '1869_CR65', 'doi-asserted-by': 'publisher', 'first-page': '11876', 'DOI': '10.1073/pnas.0505577102', 'volume': '102', 'author': 'G Simmons', 'year': '2005', 'unstructured': 'Simmons G, Gosalia DN, Rennekamp AJ, Reeves JD, Diamond SL, Bates P ' '(2005) Inhibitors of cathepsin L prevent severe acute respiratory ' 'syndrome coronavirus entry. Proc Natl Acad Sci USA 102(33):11876–11881', 'journal-title': 'Proc Natl Acad Sci USA'}, { 'issue': '6', 'key': '1869_CR66', 'doi-asserted-by': 'publisher', 'first-page': '3198', 'DOI': '10.1074/jbc.M508381200', 'volume': '281', 'author': 'IC Huang', 'year': '2006', 'unstructured': 'Huang IC, Bosch BJ, Li F, Li W, Lee KH, Ghiran S et al (2006) SARS ' 'coronavirus, but not human coronavirus NL63, utilizes cathepsin L to ' 'infect ACE2-expressing cells. J Biol Chem 281(6):3198–3203', 'journal-title': 'J Biol Chem'}, { 'issue': '7', 'key': '1869_CR67', 'doi-asserted-by': 'publisher', 'first-page': '883', 'DOI': '10.1111/j.1600-0854.2009.00915.x', 'volume': '10', 'author': 'J de Lartigue', 'year': '2009', 'unstructured': 'de Lartigue J, Polson H, Feldman M, Shokat K, Tooze SA, Urbé S et al ' '(2009) PIKfyve regulation of endosome-linked pathways. Traffic ' '10(7):883–893', 'journal-title': 'Traffic'}, { 'key': '1869_CR68', 'doi-asserted-by': 'publisher', 'first-page': '3944', 'DOI': '10.1242/jcs.03153', 'volume': '119', 'author': 'AC Rutherford', 'year': '2006', 'unstructured': 'Rutherford AC, Traer C, Wassmer T, Pattni K, Bujny MV, Carlton JG et al ' '(2006) The mammalian phosphatidylinositol 3-phosphate 5-kinase (PIKfyve) ' 'regulates endosome-to-TGN retrograde transport. J Cell Sci 119:3944–3957', 'journal-title': 'J Cell Sci'}, { 'issue': '34', 'key': '1869_CR69', 'doi-asserted-by': 'publisher', 'first-page': '20803', 'DOI': '10.1073/pnas.2007837117', 'volume': '117', 'author': 'YL Kang', 'year': '2020', 'unstructured': 'Kang YL, Chou YY, Rothlauf PW, Liu Z, Soh TK, Cureton D et al (2020) ' 'Inhibition of PIKfyve kinase prevents infection by Zaire ebolavirus and ' 'SARS-CoV-2. Proc Natl Acad Sci USA 117(34):20803–20813', 'journal-title': 'Proc Natl Acad Sci USA'}, { 'key': '1869_CR70', 'doi-asserted-by': 'publisher', 'first-page': 'e45222', 'DOI': '10.7554/eLife.45222', 'volume': '8', 'author': 'J She', 'year': '2019', 'unstructured': 'She J, Zeng W, Guo J, Chen Q, Bai XC, Jiang Y (2019) Structural ' 'mechanisms of phospholipid activation of the human TPC2 channel. eLife ' '8:e45222', 'journal-title': 'eLife'}, { 'issue': '2', 'key': '1869_CR71', 'doi-asserted-by': 'publisher', 'first-page': '110', 'DOI': '10.1016/j.tibs.2018.10.006', 'volume': '44', 'author': 'P Li', 'year': '2019', 'unstructured': 'Li P, Gu M, Xu H (2019) Lysosomal ion channels as decoders of cellular ' 'signals. Trends Biochem Sci 44(2):110–124', 'journal-title': 'Trends Biochem Sci'}, { 'issue': '6225', 'key': '1869_CR72', 'doi-asserted-by': 'publisher', 'first-page': '995', 'DOI': '10.1126/science.1258758', 'volume': '347', 'author': 'Y Sakurai', 'year': '2015', 'unstructured': 'Sakurai Y, Kolokoltsov AA, Chen CC, Tidwell MW, Bauta WE, Klugbauer N et ' 'al (2015) Ebola virus. Two-pore channels control ebola virus host cell ' 'entry and are drug targets for disease treatment. Science ' '347(6225):995–8', 'journal-title': 'Science'}, { 'issue': '23', 'key': '1869_CR73', 'doi-asserted-by': 'publisher', 'first-page': '19355', 'DOI': '10.1074/jbc.M112.365098', 'volume': '287', 'author': 'CM Lang', 'year': '2012', 'unstructured': 'Lang CM, Fellerer K, Schwenk BM, Kuhn PH, Kremmer E, Edbauer D et al ' '(2012) Membrane orientation and subcellular localization of ' 'transmembrane protein 106B (TMEM106B), a major risk factor for ' 'frontotemporal lobar degeneration. J Biol Chem 287(23):19355–19365', 'journal-title': 'J Biol Chem'}, { 'issue': '4', 'key': '1869_CR74', 'doi-asserted-by': 'publisher', 'first-page': '685', 'DOI': '10.1093/hmg/dds475', 'volume': '22', 'author': 'OA Brady', 'year': '2013', 'unstructured': 'Brady OA, Zheng Y, Murphy K, Huang M, Hu F (2013) The frontotemporal ' 'lobar degeneration risk factor, TMEM106B, regulates lysosomal morphology ' 'and function. Hum Mol Genet 22(4):685–695', 'journal-title': 'Hum Mol Genet'}, { 'issue': '5', 'key': '1869_CR75', 'doi-asserted-by': 'publisher', 'first-page': '639', 'DOI': '10.1007/s00401-016-1610-9', 'volume': '132', 'author': 'AM Nicholson', 'year': '2016', 'unstructured': 'Nicholson AM, Rademakers R (2016) What we know about TMEM106B in ' 'neurodegeneration. Acta Neuropathol 132(5):639–651', 'journal-title': 'Acta Neuropathol'}, { 'issue': '1', 'key': '1869_CR76', 'doi-asserted-by': 'publisher', 'first-page': '106', 'DOI': '10.1016/j.cell.2020.12.004', 'volume': '184', 'author': 'R Wang', 'year': '2021', 'unstructured': 'Wang R, Simoneau CR, Kulsuptrakul J, Bouhaddou M, Travisano KA, Hayashi ' 'JM et al (2021) Genetic screens identify host factors for SARS-CoV-2 and ' 'common cold coronaviruses. Cell 184(1):106–19.e14', 'journal-title': 'Cell'}, { 'key': '1869_CR77', 'doi-asserted-by': 'publisher', 'first-page': '435', 'DOI': '10.1038/s41588-021-00805-2', 'volume': '53', 'author': 'J Baggen', 'year': '2021', 'unstructured': 'Baggen J, Persoons L, Vanstreels E, Jansen S, Van Looveren D, Boeckx B ' 'et al (2021) Genome-wide CRISPR screening identifies TMEM106B as a ' 'proviral host factor for SARS-CoV-2. Nat Genet 53:435–444', 'journal-title': 'Nat Genet'}, { 'issue': '7364', 'key': '1869_CR78', 'doi-asserted-by': 'publisher', 'first-page': '340', 'DOI': '10.1038/nature10348', 'volume': '477', 'author': 'JE Carette', 'year': '2011', 'unstructured': 'Carette JE, Raaben M, Wong AC, Herbert AS, Obernosterer G, Mulherkar N ' 'et al (2011) Ebola virus entry requires the cholesterol transporter ' 'Niemann-Pick C1. Nature 477(7364):340–343', 'journal-title': 'Nature'}, { 'issue': '2', 'key': '1869_CR79', 'doi-asserted-by': 'publisher', 'first-page': '281', 'DOI': '10.1016/j.neuron.2017.06.026', 'volume': '95', 'author': 'ZA Klein', 'year': '2017', 'unstructured': 'Klein ZA, Takahashi H, Ma M, Stagi M, Zhou M, Lam TT et al (2017) Loss ' 'of TMEM106B ameliorates lysosomal and frontotemporal dementia-related ' 'phenotypes in progranulin-deficient mice. Neuron 95(2):281–96.e6', 'journal-title': 'Neuron'}, { 'issue': '43', 'key': '1869_CR80', 'doi-asserted-by': 'publisher', 'first-page': '7595', 'DOI': '10.1021/bi4010864', 'volume': '52', 'author': 'BE Aubol', 'year': '2013', 'unstructured': 'Aubol BE, Jamros MA, McGlone ML, Adams JA (2013) Splicing kinase SRPK1 ' 'conforms to the landscape of its SR protein substrate. Biochemistry ' '52(43):7595–7605', 'journal-title': 'Biochemistry'}, { 'issue': '4', 'key': '1869_CR81', 'doi-asserted-by': 'publisher', 'first-page': '482', 'DOI': '10.1101/gad.1752109', 'volume': '23', 'author': 'XY Zhong', 'year': '2009', 'unstructured': 'Zhong XY, Ding JH, Adams JA, Ghosh G, Fu XD (2009) Regulation of SR ' 'protein phosphorylation and alternative splicing by modulating kinetic ' 'interactions of SRPK1 with molecular chaperones. Genes Dev 23(4):482–495', 'journal-title': 'Genes Dev'}, { 'issue': '4', 'key': '1869_CR82', 'doi-asserted-by': 'publisher', 'first-page': '737', 'DOI': '10.1083/jcb.140.4.737', 'volume': '140', 'author': 'HY Wang', 'year': '1998', 'unstructured': 'Wang HY, Lin W, Dyck JA, Yeakley JM, Songyang Z, Cantley LC et al (1998) ' 'SRPK2: a differentially expressed SR protein-specific kinase involved in ' 'mediating the interaction and localization of pre-mRNA splicing factors ' 'in mammalian cells. J Cell Biol 140(4):737–750', 'journal-title': 'J Cell Biol'}, { 'issue': '1', 'key': '1869_CR83', 'doi-asserted-by': 'publisher', 'first-page': 'e02565', 'DOI': '10.1128/mBio.02565-19', 'volume': '11', 'author': 'Y Takamatsu', 'year': '2020', 'unstructured': 'Takamatsu Y, Krähling V, Kolesnikova L, Halwe S, Lier C, Baumeister S et ' 'al (2020) Serine-arginine protein kinase 1 regulates ebola virus ' 'transcription. mBio 11(1):e02565-19', 'journal-title': 'mBio'}, { 'issue': '8', 'key': '1869_CR84', 'doi-asserted-by': 'publisher', 'first-page': '3179', 'DOI': '10.1128/AAC.00113-10', 'volume': '54', 'author': 'Y Karakama', 'year': '2010', 'unstructured': 'Karakama Y, Sakamoto N, Itsui Y, Nakagawa M, Tasaka-Fujita M, ' 'Nishimura-Sakurai Y et al (2010) Inhibition of hepatitis C virus ' 'replication by a specific inhibitor of serine-arginine-rich protein ' 'kinase. Antimicrob Agents Chemother 54(8):3179–3186', 'journal-title': 'Antimicrob Agents Chemother'}, { 'key': '1869_CR85', 'doi-asserted-by': 'publisher', 'first-page': '1547', 'DOI': '10.1099/vir.0.020313-0', 'volume': '91', 'author': 'CE Gaddy', 'year': '2010', 'unstructured': 'Gaddy CE, Wong DS, Markowitz-Shulman A, Colberg-Poley AM (2010) ' 'Regulation of the subcellular distribution of key cellular ' 'RNA-processing factors during permissive human cytomegalovirus ' 'infection. J Gen Virol 91:1547–1559', 'journal-title': 'J Gen Virol'}, { 'issue': '21', 'key': '1869_CR86', 'doi-asserted-by': 'publisher', 'first-page': '12599', 'DOI': '10.1128/JVI.02029-14', 'volume': '88', 'author': 'EL Prescott', 'year': '2014', 'unstructured': 'Prescott EL, Brimacombe CL, Hartley M, Bell I, Graham S, Roberts S ' '(2014) Human papillomavirus type 1 E1^E4 protein is a potent inhibitor ' 'of the serine-arginine (SR) protein kinase SRPK1 and inhibits ' 'phosphorylation of host SR proteins and of the viral transcription and ' 'replication regulator E2. J Virol 88(21):12599–12611', 'journal-title': 'J Virol'}, { 'issue': '5', 'key': '1869_CR87', 'doi-asserted-by': 'publisher', 'first-page': 'e02551', 'DOI': '10.1128/mBio.02551-19', 'volume': '10', 'author': 'RB Tunnicliffe', 'year': '2019', 'unstructured': 'Tunnicliffe RB, Hu WK, Wu MY, Levy C, Mould AP, McKenzie EA et al (2019) ' 'Molecular mechanism of SR protein kinase 1 inhibition by the herpes ' 'virus protein ICP27. mBio 10(5):e02551-19', 'journal-title': 'mBio'}, { 'issue': '16', 'key': '1869_CR88', 'doi-asserted-by': 'publisher', 'first-page': '8124', 'DOI': '10.1128/JVI.76.16.8124-8137.2002', 'volume': '76', 'author': 'H Daub', 'year': '2002', 'unstructured': 'Daub H, Blencke S, Habenberger P, Kurtenbach A, Dennenmoser J, Wissing J ' 'et al (2002) Identification of SRPK1 and SRPK2 as the major cellular ' 'protein kinases phosphorylating hepatitis B virus core protein. J Virol ' '76(16):8124–8137', 'journal-title': 'J Virol'}, { 'issue': '16', 'key': '1869_CR89', 'doi-asserted-by': 'publisher', 'first-page': '4152', 'DOI': '10.1111/j.1742-4658.2008.06564.x', 'volume': '275', 'author': 'TY Peng', 'year': '2008', 'unstructured': 'Peng TY, Lee KR, Tarn WY (2008) Phosphorylation of the arginine/serine ' 'dipeptide-rich motif of the severe acute respiratory syndrome ' 'coronavirus nucleocapsid protein modulates its multimerization, ' 'translation inhibitory activity and cellular localization. FEBS J ' '275(16):4152–4163', 'journal-title': 'FEBS J'}, { 'key': '1869_CR90', 'unstructured': 'Heaton BE, Trimarco JD, Hamele CE, Harding AT, Tata A, Zhu X, et al ' '(2020) SRSF protein kinases 1 and 2 are essential host factors for human ' 'coronaviruses including SARS-CoV-2. bioRxiv:2020.08.14.251207'}, { 'issue': '1', 'key': '1869_CR91', 'doi-asserted-by': 'publisher', 'first-page': '72', 'DOI': '10.1016/j.gpb.2020.01.001', 'volume': '18', 'author': 'C Wang', 'year': '2020', 'unstructured': 'Wang C, Xu H, Lin S, Deng W, Zhou J, Zhang Y et al (2020) GPS 50: an ' 'update on the prediction of kinase-specific phosphorylation sites in ' 'proteins. Genomics Proteomics Bioinform 18(1):72–80', 'journal-title': 'Genomics Proteomics Bioinform'}, { 'issue': '3', 'key': '1869_CR92', 'doi-asserted-by': 'publisher', 'first-page': '685', 'DOI': '10.1016/j.cell.2020.06.034', 'volume': '182', 'author': 'M Bouhaddou', 'year': '2020', 'unstructured': 'Bouhaddou M, Memon D, Meyer B, White KM, Rezelj VV, Correa Marrero M et ' 'al (2020) The global phosphorylation landscape of SARS-CoV-2 infection. ' 'Cell 182(3):685-712.e19', 'journal-title': 'Cell'}, { 'issue': '15', 'key': '1869_CR93', 'doi-asserted-by': 'publisher', 'first-page': '2251', 'DOI': '10.1042/BCJ20160170', 'volume': '473', 'author': 'JM Backer', 'year': '2016', 'unstructured': 'Backer JM (2016) The intricate regulation and complex functions of the ' 'Class III phosphoinositide 3-kinase Vps34. Biochem J 473(15):2251–2271', 'journal-title': 'Biochem J'}, { 'issue': '1', 'key': '1869_CR94', 'doi-asserted-by': 'publisher', 'first-page': 'e1007530', 'DOI': '10.1371/journal.ppat.1007530', 'volume': '15', 'author': 'Z Feng', 'year': '2019', 'unstructured': 'Feng Z, Xu K, Kovalev N, Nagy PD (2019) Recruitment of Vps34 PI3K and ' 'enrichment of PI3P phosphoinositide in the viral replication compartment ' 'is crucial for replication of a positive-strand RNA virus. PLoS Path ' '15(1):e1007530', 'journal-title': 'PLoS Path'}, { 'issue': '31', 'key': '1869_CR95', 'doi-asserted-by': 'publisher', 'first-page': '21276', 'DOI': '10.1074/jbc.M114.582999', 'volume': '289', 'author': 'JM Liefhebber', 'year': '2014', 'unstructured': 'Liefhebber JM, Hague CV, Zhang Q, Wakelam MJ, McLauchlan J (2014) ' 'Modulation of triglyceride and cholesterol ester synthesis impairs ' 'assembly of infectious hepatitis C virus. J Biol Chem ' '289(31):21276–21288', 'journal-title': 'J Biol Chem'}, { 'key': '1869_CR96', 'doi-asserted-by': 'crossref', 'unstructured': 'Silvas Jesus A, Jureka Alexander S, Nicolini Anthony M, Chvatal Stacie ' 'A, Basler Christopher F (2020) Inhibitors of VPS34 and lipid metabolism ' 'suppress SARS-CoV-2 replication. bioRxiv:2020.07.18.210211', 'DOI': '10.1101/2020.07.18.210211'}, { 'issue': '4', 'key': '1869_CR97', 'doi-asserted-by': 'publisher', 'first-page': '2076', 'DOI': '10.1002/jmv.26583', 'volume': '93', 'author': 'CK Yuen', 'year': '2021', 'unstructured': 'Yuen CK, Wong WM, Mak LF, Wang X, Chu H, Yuen KY et al (2021) ' 'Suppression of SARS-CoV-2 infection in ex-vivo human lung tissues by ' 'targeting class III phosphoinositide 3-kinase. J Med Virol ' '93(4):2076–2083', 'journal-title': 'J Med Virol'}, { 'issue': '6', 'key': '1869_CR98', 'doi-asserted-by': 'publisher', 'first-page': 'e3000715', 'DOI': '10.1371/journal.pbio.3000715', 'volume': '18', 'author': 'EJ Snijder', 'year': '2020', 'unstructured': 'Snijder EJ, Limpens RWAL, de Wilde AH, de Jong AWM, Zevenhoven-Dobbe JC, ' 'Maier HJ et al (2020) A unifying structural and functional model of the ' 'coronavirus replication organelle: Tracking down RNA synthesis. PLoS ' 'Biol 18(6):e3000715', 'journal-title': 'PLoS Biol'}, { 'issue': '6', 'key': '1869_CR99', 'doi-asserted-by': 'publisher', 'first-page': '500', 'DOI': '10.1016/j.chom.2010.05.013', 'volume': '7', 'author': 'F Reggiori', 'year': '2010', 'unstructured': 'Reggiori F, Monastyrska I, Verheije MH, Calì T, Ulasli M, Bianchi S et ' 'al (2010) Coronaviruses Hijack the LC3-I-positive EDEMosomes, ER-derived ' 'vesicles exporting short-lived ERAD regulators, for replication. Cell ' 'Host Microbe 7(6):500–508', 'journal-title': 'Cell Host Microbe'}, { 'issue': '1', 'key': '1869_CR100', 'doi-asserted-by': 'publisher', 'first-page': '5770', 'DOI': '10.1038/s41467-019-13659-4', 'volume': '10', 'author': 'NC Gassen', 'year': '2019', 'unstructured': 'Gassen NC, Niemeyer D, Muth D, Corman VM, Martinelli S, Gassen A et al ' '(2019) SKP2 attenuates autophagy through beclin1-ubiquitination and its ' 'inhibition reduces MERS-coronavirus infection. Nat Commun 10(1):5770', 'journal-title': 'Nat Commun'}, { 'issue': '11', 'key': '1869_CR101', 'doi-asserted-by': 'publisher', 'first-page': '1069', 'DOI': '10.1038/ncb3053', 'volume': '16', 'author': 'WE Dowdle', 'year': '2014', 'unstructured': 'Dowdle WE, Nyfeler B, Nagel J, Elling RA, Liu S, Triantafellow E et al ' '(2014) Selective VPS34 inhibitor blocks autophagy and uncovers a role ' 'for NCOA4 in ferritin degradation and iron homeostasis in vivo. Nat Cell ' 'Biol 16(11):1069–1079', 'journal-title': 'Nat Cell Biol'}, { 'issue': '8', 'key': '1869_CR102', 'doi-asserted-by': 'publisher', 'first-page': 'e100156', 'DOI': '10.15252/embj.2018100156', 'volume': '38', 'author': 'L Su', 'year': '2019', 'unstructured': 'Su L, Zhou L, Chen FJ, Wang H, Qian H, Sheng Y et al (2019) Cideb ' 'controls sterol-regulated ER export of SREBP/SCAP by promoting cargo ' 'loading at ER exit sites. EMBO J 38(8):e100156', 'journal-title': 'EMBO J'}, { 'issue': '4', 'key': '1869_CR103', 'doi-asserted-by': 'publisher', 'first-page': '225', 'DOI': '10.1038/s41580-019-0190-7', 'volume': '21', 'author': 'J Luo', 'year': '2020', 'unstructured': 'Luo J, Yang H, Song BL (2020) Mechanisms and regulation of cholesterol ' 'homeostasis. Nat Rev Mol Cell Biol 21(4):225–245', 'journal-title': 'Nat Rev Mol Cell Biol'}, { 'issue': '32', 'key': '1869_CR104', 'doi-asserted-by': 'publisher', 'first-page': '23216', 'DOI': '10.1016/S0021-9258(18)50079-X', 'volume': '267', 'author': 'DE Jones', 'year': '1992', 'unstructured': 'Jones DE, Bevins CL (1992) Paneth cells of the human small intestine ' 'express an antimicrobial peptide gene. J Biol Chem 267(32):23216–23225', 'journal-title': 'J Biol Chem'}, { 'issue': '1', 'key': '1869_CR105', 'doi-asserted-by': 'publisher', 'first-page': '269', 'DOI': '10.1128/AAC.49.1.269-275.2005', 'volume': '49', 'author': 'B Ericksen', 'year': '2005', 'unstructured': 'Ericksen B, Wu Z, Lu W, Lehrer RI (2005) Antibacterial activity and ' 'specificity of the six human {alpha}-defensins. Antimicrob Agents ' 'Chemother 49(1):269–275', 'journal-title': 'Antimicrob Agents Chemother'}, { 'issue': '7', 'key': '1869_CR106', 'doi-asserted-by': 'publisher', 'first-page': '3083', 'DOI': '10.1021/jm501824a', 'volume': '58', 'author': 'C Wang', 'year': '2015', 'unstructured': 'Wang C, Shen M, Gohain N, Tolbert WD, Chen F, Zhang N et al (2015) ' 'Design of a potent antibiotic peptide based on the active region of ' 'human defensin 5. J Med Chem 58(7):3083–3093', 'journal-title': 'J Med Chem'}, { 'issue': '3', 'key': '1869_CR107', 'doi-asserted-by': 'publisher', 'first-page': '1145', 'DOI': '10.1053/j.gastro.2020.05.015', 'volume': '159', 'author': 'C Wang', 'year': '2020', 'unstructured': 'Wang C, Wang S, Li D, Wei DQ, Zhao J, Wang J (2020) Human intestinal ' 'defensin 5 inhibits SARS-CoV-2 invasion by cloaking ACE2. ' 'Gastroenterology 159(3):1145–7.e4', 'journal-title': 'Gastroenterology'}, { 'key': '1869_CR108', 'doi-asserted-by': 'publisher', 'first-page': '110244', 'DOI': '10.1016/j.mehy.2020.110244', 'volume': '143', 'author': 'Y Niv', 'year': '2020', 'unstructured': 'Niv Y (2020) Defensin 5 for prevention of SARS-CoV-2 invasion and ' 'Covid-19 disease. Med Hypotheses 143:110244', 'journal-title': 'Med Hypotheses'}, { 'issue': '6', 'key': '1869_CR109', 'doi-asserted-by': 'publisher', 'first-page': '1179', 'DOI': '10.1016/0092-8674(93)90327-M', 'volume': '75', 'author': 'D Sako', 'year': '1993', 'unstructured': 'Sako D, Chang XJ, Barone KM, Vachino G, White HM, Shaw G et al (1993) ' 'Expression cloning of a functional glycoprotein ligand for P-selectin. ' 'Cell 75(6):1179–1186', 'journal-title': 'Cell'}, { 'issue': '3', 'key': '1869_CR110', 'doi-asserted-by': 'publisher', 'first-page': '467', 'DOI': '10.1016/S0092-8674(00)00138-0', 'volume': '103', 'author': 'WS Somers', 'year': '2000', 'unstructured': 'Somers WS, Tang J, Shaw GD, Camphausen RT (2000) Insights into the ' 'molecular basis of leukocyte tethering and rolling revealed by ' 'structures of P- and E-selectin bound to SLe(X) and PSGL-1. Cell ' '103(3):467–479', 'journal-title': 'Cell'}, { 'issue': '7', 'key': '1869_CR111', 'doi-asserted-by': 'publisher', 'first-page': '794', 'DOI': '10.1038/nm.1961', 'volume': '15', 'author': 'Y Nishimura', 'year': '2009', 'unstructured': 'Nishimura Y, Shimojima M, Tano Y, Miyamura T, Wakita T, Shimizu H (2009) ' 'Human P-selectin glycoprotein ligand-1 is a functional receptor for ' 'enterovirus 71. Nat Med 15(7):794–797', 'journal-title': 'Nat Med'}, { 'issue': '5', 'key': '1869_CR112', 'doi-asserted-by': 'publisher', 'first-page': '813', 'DOI': '10.1038/s41564-019-0372-2', 'volume': '4', 'author': 'Y Liu', 'year': '2019', 'unstructured': 'Liu Y, Fu Y, Wang Q, Li M, Zhou Z, Dabbagh D et al (2019) Proteomic ' 'profiling of HIV-1 infection of human CD4 T cells identifies PSGL-1 as ' 'an HIV restriction factor. Nat Microbiol 4(5):813–825', 'journal-title': 'Nat Microbiol'}, { 'key': '1869_CR113', 'unstructured': 'He S, Hetrick B, Dabbagh D, Akhrymuk IV, Kehn-Hall K, Freed EO, et al ' '(2020) PSGL-1 blocks SARS-CoV-2 S protein-mediated virus attachment and ' 'infection of target cells. bioRxiv:2020.05.01.073387'}, { 'issue': '17', 'key': '1869_CR114', 'doi-asserted-by': 'publisher', 'first-page': '9537', 'DOI': '10.1073/pnas.1916054117', 'volume': '117', 'author': 'Y Fu', 'year': '2020', 'unstructured': 'Fu Y, He S, Waheed AA, Dabbagh D, Zhou Z, Trinité B et al (2020) PSGL-1 ' 'restricts HIV-1 infectivity by blocking virus particle attachment to ' 'target cells. Proc Natl Acad Sci USA 117(17):9537–9545', 'journal-title': 'Proc Natl Acad Sci USA'}, { 'issue': '40', 'key': '1869_CR115', 'doi-asserted-by': 'publisher', 'first-page': 'E8508', 'DOI': '10.1073/pnas.1712592114', 'volume': '114', 'author': 'W Li', 'year': '2017', 'unstructured': 'Li W, Hulswit RJG, Widjaja I, Raj VS, McBride R, Peng W et al (2017) ' 'Identification of sialic acid-binding function for the middle east ' 'respiratory syndrome coronavirus spike glycoprotein. Proc Natl Acad Sci ' 'USA 114(40):E8508–E8517', 'journal-title': 'Proc Natl Acad Sci USA'}, { 'issue': '4', 'key': '1869_CR116', 'doi-asserted-by': 'publisher', 'first-page': '586', 'DOI': '10.1016/j.chom.2020.08.004', 'volume': '28', 'author': 'P Zhao', 'year': '2020', 'unstructured': 'Zhao P, Praissman JL, Grant OC, Cai Y, Xiao T, Rosenbalm KE et al (2020) ' 'Virus-receptor interactions of glycosylated SARS-CoV-2 spike and human ' 'ACE2 receptor. Cell Host Microbe 28(4):586-601.e6', 'journal-title': 'Cell Host Microbe'}, { 'issue': '6', 'key': '1869_CR117', 'doi-asserted-by': 'publisher', 'first-page': '870', 'DOI': '10.1016/j.chom.2020.05.008', 'volume': '27', 'author': 'A Park', 'year': '2020', 'unstructured': 'Park A, Iwasaki A (2020) Type I and type III interferons—induction, ' 'signaling, evasion, and application to combat COVID-19. Cell Host ' 'Microbe 27(6):870–878', 'journal-title': 'Cell Host Microbe'}, { 'issue': '1', 'key': '1869_CR118', 'doi-asserted-by': 'publisher', 'first-page': '92', 'DOI': '10.1016/j.immuni.2012.11.005', 'volume': '38', 'author': 'SY Liu', 'year': '2013', 'unstructured': 'Liu SY, Aliyari R, Chikere K, Li G, Marsden MD, Smith JK et al (2013) ' 'Interferon-inducible cholesterol-25-hydroxylase broadly inhibits viral ' 'entry by production of 25-hydroxycholesterol. Immunity 38(1):92–105', 'journal-title': 'Immunity'}, { 'issue': '51', 'key': '1869_CR119', 'doi-asserted-by': 'publisher', 'first-page': '34316', 'DOI': '10.1074/jbc.273.51.34316', 'volume': '273', 'author': 'EG Lund', 'year': '1998', 'unstructured': 'Lund EG, Kerr TA, Sakai J, Li WP, Russell DW (1998) cDNA cloning of ' 'mouse and human cholesterol 25-hydroxylases, polytopic membrane proteins ' 'that synthesize a potent oxysterol regulator of lipid metabolism. J Biol ' 'Chem 273(51):34316–34327', 'journal-title': 'J Biol Chem'}, { 'issue': '3', 'key': '1869_CR120', 'doi-asserted-by': 'publisher', 'first-page': '446', 'DOI': '10.1016/j.immuni.2017.02.012', 'volume': '46', 'author': 'C Li', 'year': '2017', 'unstructured': 'Li C, Deng YQ, Wang S, Ma F, Aliyari R, Huang XY et al (2017) ' '25-Hydroxycholesterol protects host against zika virus infection and its ' 'associated microcephaly in a mouse model. Immunity 46(3):446–456', 'journal-title': 'Immunity'}, { 'issue': '21', 'key': '1869_CR121', 'doi-asserted-by': 'publisher', 'first-page': '6057', 'DOI': '10.15252/embj.2020106057', 'volume': '39', 'author': 'S Wang', 'year': '2020', 'unstructured': 'Wang S, Li W, Hui H, Tiwari SK, Zhang Q, Croker BA et al (2020) ' 'Cholesterol 25-hydroxylase inhibits SARS-CoV-2 and other coronaviruses ' 'by depleting membrane cholesterol. EMBO J 39(21):6057', 'journal-title': 'EMBO J'}, { 'issue': '46', 'key': '1869_CR122', 'doi-asserted-by': 'publisher', 'first-page': '17289', 'DOI': '10.1074/jbc.RA119.010393', 'volume': '294', 'author': 'KA Johnson', 'year': '2019', 'unstructured': 'Johnson KA, Endapally S, Vazquez DC, Infante RE, Radhakrishnan A (2019) ' 'Ostreolysin A and anthrolysin O use different mechanisms to control ' 'movement of cholesterol from the plasma membrane to the endoplasmic ' 'reticulum. J Biol Chem 294(46):17289–17300', 'journal-title': 'J Biol Chem'}, { 'issue': '7', 'key': '1869_CR123', 'doi-asserted-by': 'publisher', 'first-page': '929', 'DOI': '10.1038/s41564-020-0701-5', 'volume': '5', 'author': 'ME Abrams', 'year': '2020', 'unstructured': 'Abrams ME, Johnson KA, Perelman SS, Zhang LS, Endapally S, Mar KB et al ' '(2020) Oxysterols provide innate immunity to bacterial infection by ' 'mobilizing cell surface accessible cholesterol. Nat Microbiol ' '5(7):929–942', 'journal-title': 'Nat Microbiol'}, { 'issue': '11', 'key': '1869_CR124', 'doi-asserted-by': 'publisher', 'first-page': '1020', 'DOI': '10.3390/v11111020', 'volume': '11', 'author': 'J Yu', 'year': '2019', 'unstructured': 'Yu J, Liu SL (2019) Emerging role of LY6E in virus-host interactions. ' 'Viruses 11(11):1020', 'journal-title': 'Viruses'}, { 'issue': '18', 'key': '1869_CR125', 'doi-asserted-by': 'publisher', 'first-page': 'e00562', 'DOI': '10.1128/JVI.00562-20', 'volume': '94', 'author': 'X Zhao', 'year': '2020', 'unstructured': 'Zhao X, Zheng S, Chen D, Zheng M, Li X, Li G et al (2020) LY6E restricts ' 'entry of human coronaviruses, including currently pandemic SARS-CoV-2. J ' 'Virol 94(18):e00562-e620', 'journal-title': 'J Virol'}, { 'issue': '1', 'key': '1869_CR126', 'doi-asserted-by': 'publisher', 'first-page': '3603', 'DOI': '10.1038/s41467-018-06000-y', 'volume': '9', 'author': 'KB Mar', 'year': '2018', 'unstructured': 'Mar KB, Rinkenberger NR, Boys IN, Eitson JL, McDougal MB, Richardson RB ' 'et al (2018) LY6E mediates an evolutionarily conserved enhancement of ' 'virus infection by targeting a late entry step. Nat Commun 9(1):3603', 'journal-title': 'Nat Commun'}, { 'issue': '11', 'key': '1869_CR127', 'doi-asserted-by': 'publisher', 'first-page': '1330', 'DOI': '10.1038/s41564-020-0769-y', 'volume': '5', 'author': 'S Pfaender', 'year': '2020', 'unstructured': 'Pfaender S, Mar KB, Michailidis E, Kratzel A, BoysV’kovski INP et al ' '(2020) LY6E impairs coronavirus fusion and confers immune control of ' 'viral disease. Nat Microbiol 5(11):1330–1339', 'journal-title': 'Nat Microbiol'}, { 'issue': '48', 'key': '1869_CR128', 'doi-asserted-by': 'publisher', 'first-page': '24303', 'DOI': '10.1073/pnas.1913232116', 'volume': '116', 'author': 'JL Meagher', 'year': '2019', 'unstructured': 'Meagher JL, Takata M, Gonçalves-Carneiro D, Keane SC, Rebendenne A, Ong ' 'H et al (2019) Structure of the zinc-finger antiviral protein in complex ' 'with RNA reveals a mechanism for selective targeting of CG-rich viral ' 'sequences. Proc Natl Acad Sci USA 116(48):24303–24309', 'journal-title': 'Proc Natl Acad Sci USA'}, { 'issue': '6', 'key': '1869_CR129', 'doi-asserted-by': 'publisher', 'first-page': 'e01337', 'DOI': '10.1128/JVI.01337-19', 'volume': '94', 'author': 'M Ficarelli', 'year': '2020', 'unstructured': 'Ficarelli M, Antzin-Anduetza I, Hugh-White R, Firth AE, Sertkaya H, ' 'Wilson H et al (2020) CpG dinucleotides inhibit HIV-1 replication ' 'through zinc finger antiviral protein (ZAP)-dependent and -independent ' 'mechanisms. J Virol 94(6):e01337-e1419', 'journal-title': 'J Virol'}, { 'issue': '7674', 'key': '1869_CR130', 'doi-asserted-by': 'publisher', 'first-page': '124', 'DOI': '10.1038/nature24039', 'volume': '550', 'author': 'MA Takata', 'year': '2017', 'unstructured': 'Takata MA, Gonçalves-Carneiro D, Zang TM, Soll SJ, York A, Blanco-Melo D ' 'et al (2017) CG dinucleotide suppression enables antiviral defence ' 'targeting non-self RNA. Nature 550(7674):124–127', 'journal-title': 'Nature'}, { 'issue': '2', 'key': '1869_CR131', 'doi-asserted-by': 'publisher', 'first-page': '431', 'DOI': '10.1016/j.virol.2007.08.010', 'volume': '369', 'author': 'PC Woo', 'year': '2007', 'unstructured': 'Woo PC, Wong BH, Huang Y, Lau SK, Yuen KY (2007) Cytosine deamination ' 'and selection of CpG suppressed clones are the two major independent ' 'biological forces that shape codon usage bias in coronaviruses. Virology ' '369(2):431–442', 'journal-title': 'Virology'}, { 'issue': '9', 'key': '1869_CR132', 'doi-asserted-by': 'publisher', 'first-page': '2699', 'DOI': '10.1093/molbev/msaa094', 'volume': '37', 'author': 'X Xia', 'year': '2020', 'unstructured': 'Xia X (2020) Extreme genomic CpG deficiency in SARS-CoV-2 and evasion of ' 'host antiviral defense. Mol Biol Evol 37(9):2699–2705', 'journal-title': 'Mol Biol Evol'}, { 'issue': '5', 'key': '1869_CR133', 'doi-asserted-by': 'publisher', 'first-page': 'e01930', 'DOI': '10.1128/mBio.01930-20', 'volume': '11', 'author': 'R Nchioua', 'year': '2020', 'unstructured': 'Nchioua R, Kmiec D, Müller JA, Conzelmann C, Groß R, Swanson CM et al ' '(2020) SARS-CoV-2 is restricted by zinc finger antiviral protein despite ' 'preadaptation to the low-CpG environment in humans. mBio 11(5):e01930-20', 'journal-title': 'mBio'}, { 'issue': '10', 'key': '1869_CR134', 'doi-asserted-by': 'publisher', 'first-page': '707', 'DOI': '10.1002/iub.379', 'volume': '62', 'author': 'NB Calcaterra', 'year': '2010', 'unstructured': 'Calcaterra NB, Armas P, Weiner AM, Borgognone M (2010) CNBP: a ' 'multifunctional nucleic acid chaperone involved in cell death and ' 'proliferation control. IUBMB Life 62(10):707–714', 'journal-title': 'IUBMB Life'}, { 'issue': '3', 'key': '1869_CR135', 'doi-asserted-by': 'publisher', 'first-page': '339', 'DOI': '10.1038/s41564-020-00846-z', 'volume': '6', 'author': 'N Schmidt', 'year': '2020', 'unstructured': 'Schmidt N, Lareau CA, Keshishian H, Ganskih S, Schneider C, Hennig T et ' 'al (2020) The SARS-CoV-2 RNA-protein interactome in infected human ' 'cells. Nat Microbiol 6(3):339–353', 'journal-title': 'Nat Microbiol'}, { 'issue': '1', 'key': '1869_CR136', 'doi-asserted-by': 'publisher', 'first-page': 'e21', 'DOI': '10.1371/journal.pgen.0040021', 'volume': '4', 'author': 'JA Kerns', 'year': '2008', 'unstructured': 'Kerns JA, Emerman M, Malik HS (2008) Positive selection and increased ' 'antiviral activity associated with the PARP-containing isoform of human ' 'zinc-finger antiviral protein. PLoS Genet 4(1):e21', 'journal-title': 'PLoS Genet'}, { 'issue': '1', 'key': '1869_CR137', 'doi-asserted-by': 'publisher', 'first-page': '164', 'DOI': '10.1016/j.molcel.2020.08.006', 'volume': '80', 'author': 'K Klann', 'year': '2020', 'unstructured': 'Klann K, Bojkova D, Tascher G, Ciesek S, Münch C, Cinatl J (2020) Growth ' 'factor receptor signaling inhibition prevents SARS-CoV-2 replication. ' 'Mol Cell 80(1):164–74.e4', 'journal-title': 'Mol Cell'}, { 'issue': '26', 'key': '1869_CR138', 'doi-asserted-by': 'publisher', 'first-page': '15996', 'DOI': '10.1074/jbc.M114.621730', 'volume': '290', 'author': 'BD Fonseca', 'year': '2015', 'unstructured': 'Fonseca BD, Zakaria C, Jia JJ, Graber TE, Svitkin Y, Tahmasebi S et al ' '(2015) La-related protein 1 (LARP1) represses terminal oligopyrimidine ' '(TOP) mRNA translation downstream of mTOR complex 1 (mTORC1). J Biol ' 'Chem 290(26):15996–16020', 'journal-title': 'J Biol Chem'}], 'container-title': 'Virus Genes', 'original-title': [], 'language': 'en', 'link': [ { 'URL': 'https://link.springer.com/content/pdf/10.1007/s11262-021-01869-2.pdf', 'content-type': 'application/pdf', 'content-version': 'vor', 'intended-application': 'text-mining'}, { 'URL': 'https://link.springer.com/article/10.1007/s11262-021-01869-2/fulltext.html', 'content-type': 'text/html', 'content-version': 'vor', 'intended-application': 'text-mining'}, { 'URL': 'https://link.springer.com/content/pdf/10.1007/s11262-021-01869-2.pdf', 'content-type': 'application/pdf', 'content-version': 'vor', 'intended-application': 'similarity-checking'}], 'deposited': { 'date-parts': [[2022, 10, 27]], 'date-time': '2022-10-27T19:29:11Z', 'timestamp': 1666898951000}, 'score': 1, 'resource': {'primary': {'URL': 'https://link.springer.com/10.1007/s11262-021-01869-2'}}, 'subtitle': [], 'short-title': [], 'issued': {'date-parts': [[2021, 9, 11]]}, 'references-count': 138, 'journal-issue': {'issue': '6', 'published-print': {'date-parts': [[2021, 12]]}}, 'alternative-id': ['1869'], 'URL': 'http://dx.doi.org/10.1007/s11262-021-01869-2', 'relation': {}, 'ISSN': ['0920-8569', '1572-994X'], 'subject': ['Virology', 'Genetics', 'Molecular Biology', 'General Medicine'], 'container-title-short': 'Virus Genes', 'published': {'date-parts': [[2021, 9, 11]]}, 'assertion': [ { 'value': '7 June 2021', 'order': 1, 'name': 'received', 'label': 'Received', 'group': {'name': 'ArticleHistory', 'label': 'Article History'}}, { 'value': '28 August 2021', 'order': 2, 'name': 'accepted', 'label': 'Accepted', 'group': {'name': 'ArticleHistory', 'label': 'Article History'}}, { 'value': '11 September 2021', 'order': 3, 'name': 'first_online', 'label': 'First Online', 'group': {'name': 'ArticleHistory', 'label': 'Article History'}}, {'order': 1, 'name': 'Ethics', 'group': {'name': 'EthicsHeading', 'label': 'Declarations'}}, { 'value': 'The authors declare no conflict of interest.', 'order': 2, 'name': 'Ethics', 'group': {'name': 'EthicsHeading', 'label': 'Conflict of interest'}}, { 'value': 'Not applicable.', 'order': 3, 'name': 'Ethics', 'group': {'name': 'EthicsHeading', 'label': 'Informed consent'}}, { 'value': 'Not applicable.', 'order': 4, 'name': 'Ethics', 'group': { 'name': 'EthicsHeading', 'label': 'Research involving human participants and/or animals'}}, { 'value': 'This content has been made available to all.', 'name': 'free', 'label': 'Free to read'}]}