CORE
🇺🇦
make metadata, not war
Services
Services overview
Explore all CORE services
Access to raw data
API
Dataset
FastSync
Content discovery
Recommender
Discovery
OAI identifiers
OAI Resolver
Managing content
Dashboard
Bespoke contracts
Consultancy services
Support us
Support us
Membership
Sponsorship
Community governance
Advisory Board
Board of supporters
Research network
About
About us
Our mission
Team
Blog
FAQs
Contact us
Filters
3 research outputs found
AggLb Is the Largest Cell-Aggregation Factor from Lactobacillus paracasei Subsp. paracasei BGNJ1-64, Functions in Collagen Adhesion, and Pathogen Exclusion In Vitro
Author
A Peter
A Waśko
+53 more
AK Yadava
AS Valenzuela
B Kos
C Cucarella
C Pelletier
CC Deivanayagam
D Hanahan
DA Hopwood
DG Anderson
DJ O’Sullivan
DK Fimereli
E Walencka
G Lorca
G Reid
G Zárate
H Holo
H Ton-That
I Jankovic
Ivana Strahinic
J Lozo
J Sambrook
J Sillanpää
JA Younes
JC Howard
JD Dubreuil
JI Flock
JM Patti
Jose Luis Balcazar
K Veljovic
L Vitetta
LM Switalski
M Cserzo
M Kojic
M Kojic
M Kojic
M Nikolic
M Schachtsiek
Maja Tolinacki
Marija Miljkovic
Milan Kojic
Milica Zivkovic
Natasa Golic
R Reniero
S Boris
SF Altschul
Snezana Kojic
T García-Cayuela
T Prince
TN Petersen
W Turpin
W Turpin
X Chen
YJ Goh
Publication venue
'Public Library of Science (PLoS)'
Publication date
Field of study
No full text
Crossref
Serotype-specific role of antigen I/II in the initial steps of the pathogenesis of the infection caused by Streptococcus suis
Author
A Kerdsin
A Krogh
+63 more
A Marchler-Bauer
A Puymège
A Zhang
AH Nobbs
Audrey Dumesnil
C Chen
C Palmieri
C Ye
D Bi
D Roy
D Roy
D Takamatsu
Daniel Grenier
David Roy
DK Fimereli
E Bordeleau
E Kaemmerer
F Warneboldt
FA Scannapieco
FJ Bikker
FJ Pallarés
G Goyette-Desjardins
HF Wertheim
I Sitkiewicz
J Madsen
Jean-Philippe Auger
JP Auger
K Wilson
L Bonifait
L Franklin
LJ Brady
LJ Brady
M Esgleas
M Gottschalk
M Gottschalk
M Segura
M Segura
Marcelo Gottschalk
MJ Casadaban
ML Ferrando
N Dekker
N Fittipaldi
N Fittipaldi
Nahuel Fittipaldi
NJ Cook
NS Jakubovics
P Artimo
P Tharavichitkul
PJ Hedberg
RA Wozniak
S Chuzeville
Sarah Chuzeville
SE Maddocks
Sonia Lacouture
TB Athey
TB Athey
TH Ngo
TN Petersen
V Loimaranta
Y Li
Y Wang
YA Que
YW Chu
Publication venue
'Springer Science and Business Media LLC'
Publication date
Field of study
No full text
Crossref
Lactobacillus oligofermentans glucose, ribose and xylose transcriptomes show higher similarity between glucose and xylose catabolism-induced responses in the early exponential growth phase
Author
A Boniface
A Jong de
+74 more
A McLeod
B Görke
BR Bochner
C Bernier-Febreau
CJ Oberg
CT Gu
D Brekasis
D Hyatt
DA Ravcheev
DA Rodionov
DG Pitcher
DK Fimereli
E Jääskeläinen
E Wang
Elina Jääskeläinen
F Gleason
F Titgemeyer
G-JE Nychas
H Neubauer
H Yang
I Grissa
I Park
I Rud
J Björkroth
J Deutscher
J Koort
J-H Kim
Jarmo Ritari
JF Cavin
Johanna Björkroth
JP Bitoun
JP Koskinen
KF Keshav
L Axelsson
Lars Paulin
M Andreevskaya
M Matus-Garcia
M Pagels
M Robinson
M Tohno
M Wietzke
Margarita Andreevskaya
MG Gänzle
MI Love
MJ Cipriano
P Echave
Per Johansson
Petri Auvinen
PS Novichkov
R Brooijmans
R Lauret
R Munch
R Singhal
R Staden
RJW Brooijmans
RK Aziz
S Chaillou
S Okada
T Castillo del
T Hayashi
T Rimaux
T Zaunmüller
T-C Huang
Tanja Rämö
TL Bailey
TS Larsen
U Kleynmans
W Klimke
W Müller
WL Nicholson
Y Fujita
Y Tanizawa
Y Zhou
Z Sun
Publication venue
'Springer Science and Business Media LLC'
Publication date
Field of study
No full text
Crossref