Biomedical Engineering Reference
In-Depth Information
P
ETERSEN
CP and R
EDDIEN
PW (2008). Smed-betacatenin-1 is required for anteroposterior blastema polarity
in planarian regeneration. Science 319(5861): 327-330.
P
OSS
KD, K
EATING
MT, and N
ECHIPORUK
A (2003). Tales of regeneration in zebrafish. Dev Dyn 226(2):
202-210.
P
OSS
KD, S
HEN
J, N
ECHIPORUK
A, M
C
M
AHON
G, T
HISSE
B, T
HISSE
C, and K
EATING
MT (2000). Roles for Fgf
signaling during zebrafish fin regeneration. Dev Biol 222(2): 347-358.
P
OSS
KD, W
ILSON
LG, and K
EATING
MT (2002). Heart regeneration in zebrafish. Science 298(5601):
2188-2190.
Q
UINT
E, S
MITH
A, A
VARON
F, L
AFOREST
L, M
ILES
J, G
AFFIELD
W, and A
KIMENKO
MA (2002). Bone patterning
is altered in the regenerating zebrafish caudal fin after ectopic expression of sonic hedgehog and bmp2b or
exposure to cyclopamine. Proc Natl Acad Sci USA 99(13): 8713-8718.
R
AYA
A, C
ONSIGLIO
A, K
AWAKAMI
Y, R
ODRIGUEZ
-E
STEBAN
C, and I
ZPISUA
-B
ELMONTE
JC (2004). The zebrafish
as a model of heart regeneration. Cloning Stem Cells 6(4): 345-351.
R
OJAS
-M
UNOZ
A, R
AJADHYKSHA
S, G
ILMOUR
D,
VAN
B
EBBER
F, A
NTOS
C, R
ODRIGUEZ
E
STEBAN
C, N
USSLEIN
-
V
OLHARD
C, and I
ZPISUA
B
ELMONTE
JC (2009). ErbB2 and ErbB3 regulate amputation-induced prolif-
eration and migration during vertebrate regeneration. Dev Biol 327(1): 177-190.
S
ADLER
KC, K
RAHN
KN, G
AUR
NA, and U
KOMADU
C (2007). Liver growth in the embryo and during liver
regeneration in zebrafish requires the cell cycle regulator, uhrf1. Proc Natl Acad Sci USA 104(5):
1570-1575.
S
TOICK
-C
OOPER
CL, M
OON
RT, and W
EIDINGER
G (2007a). Advances in signaling in vertebrate regeneration
as a prelude to regenerative medicine. Genes Dev 21(11): 1292-1315.
S
TOICK
-C
OOPER
CL, W
EIDINGER
G, R
IEHLE
KJ, H
UBBERT
C, M
AJOR
MB, F
AUSTO
N, and M
OON
RT (2007b).
Distinct Wnt signaling pathways have opposing roles in appendage regeneration. Development 134(3):
479-489.
T
HATCHER
EJ, P
AYDAR
I, A
NDERSON
KK, and P
ATTON
JG (2008). Regulation of zebrafish fin regeneration by
microRNAs. Proc Natl Acad Sci USA 105(47): 18384-18389.
T
HUMMEL
R, B
AI
S, S
ARRAS
MP J
R
., S
ONG
P, M
C
D
ERMOTT
J, B
REWER
J, P
ERRY
M, Z
HANG
X, H
YDE
DR, and
G
ODWIN
AR (2006). Inhibition of zebrafish fin regeneration using
in vivo
electroporation of morpholinos
against fgfr1 and msxb. Dev Dyn 235(2): 336-346.
W
HITEHEAD
GG, M
AKINO
S, L
IEN
CL, and K
EATING
MT (2005). fgf20 is essential for initiating zebrafish fin
regeneration. Science 310(5756): 1957-1960.
W
IENHOLDS
E,
VAN
E
EDEN
F, K
OSTERS
M, M
UDDE
J, P
LASTERK
RH, and C
UPPEN
E (2003). Efficient target-
selected mutagenesis in zebrafish. Genome Res 13(12): 2700-2707.
Y
OSHIKAWA
S, K
AWAKAMI
K, and Z
HAO
XC (2008). G2R Cre reporter transgenic zebrafish. Dev Dyn 237(9):
2460-2465.
Y
OSHINARI
N, I
SHIDA
T, K
UDO
A, and K
AWAKAMI
A (2009). Gene expression and functional analysis of
zebrafish larval fin fold regeneration. Dev Biol 325(1): 71-81.
Z
ODROW
JM and T
ANGUAY
RL (2003). 2,3,7,8-Tetrachlorodibenzo-
p
-dioxin inhibits zebrafish caudal fin
regeneration. Toxicol Sci 76(1): 151-161.