Biology Reference
In-Depth Information
Tabl e I
(Continued)
Alleles
Plasmids
Neurons
Linkage
Reference
otIs33
Pkal-1::GFP
AIY, AIZ, RID, M5, ASI,
motorneurons, midbody
neurons HSN, CAN, PVM,
DVB, DVC, PDB
LGIV
(
Altun-Gultekin et al., 2001
)
otIs39
Punc-47
D
::GFP
PVT
LGII
(
Tsalik and Hobert, 2003
)
otIs45
Punc-119::GFP
Pan-neuronal
LGV
(
Altun-Gultekin et al., 2001
)
otIs62
Psra-11-3::GFP
AIYAVB
(
Altun-Gultekin et al., 2001
)
otIs85
PF59B2.13::GFP
PVT
(
Aurelio et al., 2003
)
otIs90
Ppin-2::GFP
PVT
(
Aurelio et al., 2003
)
otIs92
Pflp-10::GFP
AIM ASI AUA BAG BDU DVB
PQR PVR URX
LGV
(
Mehta et al., 2004
)
otIs114
Plim-6prom::GFP
ASG AWA
LGI
(
Chang et al., 2006
)
otIs123
Psra-11-3::GFP
AIYAVB
(
Altun-Gultekin et al., 2001
)
otIs125
Pflp-6::GFP
ASE AFD ASG PVT
LGX
(
Chang et al., 2006
)
otIs131
Pgcy-7::RFP
ASEL
(
Chang et al., 2006
)
otIs151
Pceh-36::dsRed2
AWC ASE
LGV
(
Johnston and Hobert, 2003
)
otIs173
Prgef-1::dsRed2
Pan-neuronal
LGIII
(
Boulin et al., 2006
)
oxIs12
Punc-47::GFP
GABAergic neurons
LGX
(
McIntire et al., 1997
)
oyIs14
Psra-6::GFP
PVQ PVP
LGV
(
Sarafi-Reinach et al., 2001
)
oyIs17
Pgcy-8::GFP
AFD
LGV
(
Sarafi-Reinach et al., 2001
)
oyIs44
Pord-1::dsRed
AWC
LGV
(
Lanjuin et al., 2003
)
oyIs45
Pord-1::YFP
AWC
LGV
(
Bacaj et al., 2008
)
oyIs51
Psrh-142::YFP
ADF
LGV
(
Ortiz et al., 2006
)
rhls4
Pglr-1::GFP
AVA AVB AVD AVE PVC
LGV
(
Lim et al., 1999
)
syIs63
Pcog-1::GFP
ADL, ASE, and ASJ
(
Palmer et al., 2002
)
syIs73
Pcog-1prom::GFP
ASE
(
Chang et al., 2003
)
uIs25
Pmec-18::GFP
Touch neurons
(
Schaefer et al., 2000
)
vtIs1
Pdat-1::GFP
ADE PDE CEPV CEPD
LGV
(
Nass et al., 2002
)
wyIs75
Punc-47l::RFP; Pexp-
1::GFP
DA neurons
(
Poon et al., 2008
)
zdIs1
Pceh-23::GFP
AIY BAG ASI ADL AWC ASE
AFD ASH ASG
neurons
LGIV
(
Chang et al., 2006
)
zdIs4
Pmec-4::GFP
Touch neurons
LGIV
(
Christensen and Strange, 2001
)
zdIs5
Pmec-4::GFP
Touch neurons
LGI
(
Hao et al., 2001
)
zdIs13
Ptph-1::GFP
HSN
LGIV
(
Clark and Chiu, 2003
)
zdIs21
Pzag-1::GFP
neurons in head and tail ganglia
LGIV
(
Clark and Chiu, 2003
)
have variable expression levels and mosaic patterns. For stable expression,
transgenic extrachomosomal arrays are often integrated into the genome
through mutagenesis by UV, X-ray, or chemical mutagens. Expression
levels of transgenes may be modified following integration, the cause of
which is not fully understood.
Table I
lists many published stable transgenic
fluorescent proteins lines that label different types of neurons.
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