Skip to search form
Skip to main content
Skip to account menu
Semantic Scholar
Semantic Scholar's Logo
Search 218,259,964 papers from all fields of science
Search
Sign In
Create Free Account
Human coxsackievirus A9
Known as:
Coxsackie A9 Virus
, A9 Viruses, Coxsackie
, Coxsackievirus A9
Expand
National Institutes of Health
Create Alert
Alert
Related topics
Related topics
7 relations
Coxsackievirus A9 Ab:ACnc:Pt:Body fld:Qn
Coxsackievirus A9 Ab:ACnc:Pt:CSF:Qn
Coxsackievirus A9 Ab:PrThr:Pt:Ser:Ord
Coxsackievirus A9 Ab:Titr:Pt:CSF:Qn
Expand
Broader (1)
Human enterovirus B
Papers overview
Semantic Scholar uses AI to extract papers important to this topic.
2005
2005
Efficient RGD-independent entry process of coxsackievirus A9
M. Roivainen
,
L. Piirainen
,
T. Hovi
Archives of Virology
2005
Corpus ID: 22294230
SummaryPreviously we showed for coxsackievirus A9 (CAV-9) that specific interactions between the RGD motif of capsid protein VP1…
Expand
Highly Cited
2004
Highly Cited
2004
Inactivation of selected picornaviruses by high hydrostatic pressure.
D. Kingsley
,
Haiqiang Chen
,
D. Hoover
Virus Research
2004
Corpus ID: 42735698
Highly Cited
2000
Highly Cited
2000
Mechanisms of coxsackievirus-induced damage to human pancreatic beta-cells.
M. Roivainen
,
S. Rasilainen
,
+6 authors
T. Otonkoski
Journal of Clinical Endocrinology and Metabolism
2000
Corpus ID: 23608779
Enteroviruses may be involved in the pathogenesis of insulin-dependent diabetes mellitus, either through direct beta-cell…
Expand
Highly Cited
1999
Highly Cited
1999
The crystal structure of coxsackievirus A9: new insights into the uncoating mechanisms of enteroviruses.
E. Hendry
,
H. Hatanaka
,
+7 authors
D. Stuart
Structure
1999
Corpus ID: 25601942
Highly Cited
1999
Highly Cited
1999
Involvement of beta2-microglobulin and integrin alphavbeta3 molecules in the coxsackievirus A9 infectious cycle.
M. Triantafilou
,
K. Triantafilou
,
K. Wilson
,
Y. Takada
,
N. Fernández
,
G. Stanway
Journal of General Virology
1999
Corpus ID: 11540073
It is becoming apparent that many viruses employ more than one cell surface molecule for their attachment and cell entry. In this…
Expand
Highly Cited
1998
Highly Cited
1998
Antigenic sites of coxsackievirus A9.
T. Pulli
,
H. Lankinen
,
M. Roivainen
,
T. Hyypiä
,
T. Hyypiä
Virology
1998
Corpus ID: 25878047
Antigenic analysis of coxsackievirus A9 (CAV9) was carried out by using a peptide scanning method. Immunogenic regions in the…
Expand
1995
1995
The genome of echovirus 11.
L. Dahllund
,
L. Nissinen
,
T. Pulli
,
V. Hyttinen
,
G. Stanway
,
T. Hyypiä
Virus Research
1995
Corpus ID: 7592295
Highly Cited
1994
Highly Cited
1994
Entry of coxsackievirus A9 into host cells: specific interactions with alpha v beta 3 integrin, the vitronectin receptor.
M. Roivainen
,
L. Piirainen
,
+4 authors
T. Hyypiä
Virology
1994
Corpus ID: 10775368
Attachment and entry of coxsackievirus A9 (CAV-9) to GMK cells were previously shown to be dependent on an arginine-glycine…
Expand
1990
1990
Echoviruses include genetically distinct serotypes.
P. Auvinen
,
T. Hyypiä
Journal of General Virology
1990
Corpus ID: 45629797
We have studied the genetic relationships of echoviruses using nucleotide sequencing and hybridization analysis. The nucleotide…
Expand
Highly Cited
1989
Highly Cited
1989
The nucleotide sequence of coxsackievirus A9; implications for receptor binding and enterovirus classification.
K. Chang
,
Petri Auvinen
,
T. Hyypiä
,
G. Stanway
Journal of General Virology
1989
Corpus ID: 46682355
The complete nucleotide sequence of the genome of coxsackievirus A9 (CAV-9) has been determined from cDNA cloned in Escherichia…
Expand
By clicking accept or continuing to use the site, you agree to the terms outlined in our
Privacy Policy
(opens in a new tab)
,
Terms of Service
(opens in a new tab)
, and
Dataset License
(opens in a new tab)
ACCEPT & CONTINUE