ライフサイエンスコーパス: red fluorescent protein

1 mbinant CVB3 expressing DsRed (Discosoma sp. red fluorescent protein).

2 o a true monomer designated mRFP1 (monomeric red fluorescent protein).

3 c auxin-responsive promoter (DR5rev) driving red fluorescent protein.

4 Plasmodium berghei sporozoites expressing a red fluorescent protein.

5 ch as GFP, intensely fluorescent protein, or red fluorescent protein.

6 murine melanoma cell line B16F10 expressing red fluorescent protein.

7 to constitutively express either a green or red fluorescent protein.

8 tion of click-beetle luciferase as well as a red fluorescent protein.

9 an additional red color to the commonly used red fluorescent proteins.

10 from the protonated acylimine chromophore of red fluorescent proteins.

11 s limited due to a lack of bright and stable red fluorescent proteins.

12 t labels, such as cyan, yellow and monomeric red fluorescent proteins.

13 erentially and heritably marked by green and red fluorescent proteins.

14 nds of experiments, and we report on optimal red fluorescent proteins.

15 ein expression cassettes: EF1alpha-monomeric red fluorescent protein 1 (mRFP1), polyadenylated nuclea

16 minor capsid protein IX (pIX) [pIX monomeric red fluorescent protein 1 (mRFP1)] and a green fluoresce

17 ed yellow fluorescent protein-, or monomeric red fluorescent protein 1-fusion proteins of beta-actin,

18 en fluorescent protein-occludin or monomeric red fluorescent protein 1-ZO-1.

19 nced green fluorescent protein and monomeric red fluorescent protein-1, respectively.

20 omparative testing of available GFP-like far-red fluorescent proteins along with a modified protein,

21 The T-DNA also carried a red fluorescent protein and a hygromycin resistance (hpt

22 ecombinant MYXV expressing both the tdTomato red fluorescent protein and interleukin-15 (IL-15) (vMyx

23 llow Fluorescent Protein, GLOSSY8a-monomeric Red Fluorescent Protein and maize XYLOSYLTRANSFERASE, an

24 a small hairpin RNA in a vector labeled with red fluorescent protein and resulted in a marked reducti

25 ection of dopamine through the generation of red fluorescent proteins and 6-decarboxylated betaxanthi

26 absence of crosstalk with a number of orange/red fluorescent proteins and dyes.

27 We compared four different red fluorescent proteins and found that mKate2 yields th

28 n protein with Renilla luciferase, monomeric red fluorescent protein, and a mutant herpes simplex vir

29 -ttk (encoding firefly luciferase, monomeric red fluorescent protein, and truncated herpes simplex vi

30 When tumor cells expressing red fluorescent protein are implanted in mice expressing

31 Using red fluorescent protein as a cell morphology marker, we

32 pUL25, pUL17, and pUL36 fused with green or red fluorescent proteins as well as viruses with specifi

33 conversion is fairly common among orange and red fluorescent proteins, as in a screen of 12 proteins,

34 e endocytic tracer atrial natriuretic factor-red fluorescent protein at early stages and nephrocyte l

35 bles improved two-color calcium imaging with red fluorescent protein-based indicators.

36 demonstrate co-localization of CB1-GFP with red fluorescent protein-beta-arrestin 1 upon ORG27569 tr

37 e [B6.Cg-Tg(CAG-mRFP1) 1F1Hadj/J, expressing red fluorescent protein by actin promoter].

38 icity, exceeding that of the other green and red fluorescent proteins by at least 1,000-fold.

39 demonstrate that the signals of various far-red fluorescent proteins can be spectrally unmixed based

40 Eomes protein transfer using a farnesylated red fluorescent protein (CherryF) also prevents Eomes nu

41 troduced into HeLa cells stably expressing a red fluorescent protein chimera of the splicing factor S

42 In response to light, SFPS-RFP (red fluorescent protein) colocalizes with phyB-GFP in ph

43 Specifically, three red fluorescent proteins could be switched to a green st

44 -green (560nm maximum) bioluminescence and a red fluorescent protein covalently labeled with a near-i

45 of green fluorescent protein-labeled BMCs or red fluorescent protein-CSE-overexpressing BMCs (CSE-BMC

46 ls expressing IL4I1 translationally fused to red fluorescent protein demonstrated that IL4I1 colocali

47 of the E2 C-terminal domain with a monomeric red fluorescent protein did not rescue efficient Brd4 bi

48 Transgenic mice expressing a red fluorescent protein [Discosoma red (DsRed)] driven b

49 g synthetic Renilla luciferase and monomeric red fluorescent protein domains, as well as a truncated

50 fused to the C terminus of the Discosoma sp. red fluorescent protein (DR).

51 Earlier mutagenesis of the red fluorescent protein drFP583, also called DsRed, resu

52 We generated a mutant of the red fluorescent protein drFP583.

53 hits being called out by the appearance of a red fluorescent protein driven by the promoter of the ca

54 enerated a transgenic fly that expresses the red fluorescent protein DsRed directly fused to the pres

55 n (GFP) was inserted into one segment, and a red fluorescent protein dsRed gene was inserted into the

56 The red fluorescent protein DsRed has spectral properties th

57 dually labeled by expression of a cytosolic red fluorescent protein (DsRed Express) to mark arbor st

58 ses containing an insertion of Discosoma sp. red fluorescent protein (DsRed) after residue 144 of 2A,

59 imidazolinone-like fluorophores of Discosoma red fluorescent protein (DsRed) and Aequorea victoria gr

60 A probe consisting of Discosoma red fluorescent protein (DsRed) and enhanced yellow fluo

61 Here, the photophysics of red fluorescent protein (dsRed) from discosoma (coral),

62 nt protein (GFP) gene fused to the Discosoma red fluorescent protein (DsRed) gene.

63 fluorescent protein (GFP) and Discosoma sp. red fluorescent protein (DsRed) reporter genes driven by

64 sing an obligate dimerized form of Discosoma red fluorescent protein (DsRed) under the control of the

65 A blue-shifted GFP variant (BFP) and a red fluorescent protein (DsRed) were also useful transge

66 dney 293 cells overexpressing Discosoma spp. red fluorescent protein (DsRed)-tagged alpha1B-ARs and e

67 pecific location such that expression of the red fluorescent protein, DsRed, in the next generation c

68 The tetrameric red fluorescent protein, DsRed, undergoes a rapid red to

69 HepG2 cells with a plasmid that encodes the red fluorescent protein DsRed2 under the control of the

70 enhanced green fluorescent protein (EGFP) or red fluorescent protein (dTomato) facilitated the sensit

71 mCherry monomeric red fluorescent protein engineered to express an N-termi

72 human tumor suppressor, p53, fused to a far-red fluorescent protein, eqFP650.

73 Killer Red (KR), a genetically encoded red fluorescent protein expressed from transfected plasm

74 cent protein expressing hMSCs) over another (red-fluorescent protein expressing hMSCs).

75 ndm-knockout and Ndm-monomeric red fluorescent protein-expressing cell lines were used

76 protein were implanted orthotopically, and a red fluorescent protein-expressing human fibrosarcoma wa

77 scent protein-expressing clones and parental red fluorescent protein-expressing human prostate carcin

78 pared single mice with a highly fluorescent, red fluorescent protein-expressing orthotopic pancreatic

79 ptical whole-body imaging based on brilliant red fluorescent protein expression of the tumor permitte

80 y sized fragment is generated by all GFP and red fluorescent protein family members we examined.

81 luciferase) or triple fusion (TF; monomeric red fluorescent protein, firefly luciferase and herpes s

82 o integrate a construct containing monomeric red fluorescent protein, firefly luciferase, and herpes

83 gents, such as monomeric red and dimeric far-red fluorescent proteins, fluorescent timers and photoco

84 H injection of a herpes virus that expresses red fluorescent protein following activation by Cre reco

85 cribe vectors with codon-optimized green and red fluorescent proteins for A. pullulans and use these

86 of recombinant proteins fused with green and red fluorescent proteins for detection.

87 observation can eventually lead to improved red fluorescent proteins for even better performance.

88 rsTagRFP is the first monomeric red fluorescent protein (FP) with reversibly photoswitch

89 nhibitory rhodopsin, with mScarlet, a bright red fluorescent protein (FP).

90 g (FLIM) that the lifetime of both green and red fluorescent proteins (FP) are also sensitive to chan

91 Far-red fluorescent proteins (FPs) are desirable for in vivo

92 Orange-red fluorescent proteins (FPs) are widely used in biomed

93 The crystal structure of DsRed, a red fluorescent protein from a corallimorpharian, has be

94 cellular promoter active during latency and red fluorescent protein from a viral lytic promoter.

95 een puromycin acetyltransferase and green or red fluorescent protein from CV, the human cytomegalovir

96 GFP, and the obligate tetramerization of the red fluorescent protein from Discosoma (DsRed).

97 ion of reporter genes encoding either GFP or red fluorescent protein from Discosoma was specifically

98 tides and nucleosides, and when fused with a red fluorescent protein function as ratiometric indicato

99 of P and a fusion matrix protein (monomeric red fluorescent protein fused in frame at the carboxy te

100 rge stepwise changes in the intensity of the red fluorescent protein fused to CI were observed as it

101 A VP26mRFP marker (red fluorescent protein fused to VP26) was recombined in

102 mptothecin, or overexpression of a caspase 8-red fluorescent protein fusion protein.

103 oth alpha(q)-GFP and a protein kinase Cgamma-red fluorescent protein fusion that translocates to the

104 ation process in vitro by using an ActA-RFP (red fluorescent protein) fusion.

105 Green/red fluorescent protein fusions of four of them were sho

106 evel, making it an interesting candidate for red fluorescent protein fusions.

107 selected using green fluorescent protein and red fluorescent protein genes driven by promoters that a

108 ed as fusion proteins with green, yellow, or red fluorescent protein (GFP, YFP, or RFP) in F-11A cell

109 the study of auxin signaling, exploiting the red fluorescent protein/GFP dual labeling capability.

110 y in PC-3 prostate cancer cells labeled with red fluorescent protein grafted into nude mice.

111 RNAi, whereas expression of the Golgi marker red fluorescent protein-GRASP (Grp1 (general receptor fo

112 in which a bicistronic reporter expressing a red fluorescent protein has been knocked into the endoge

113 DsRed, a recently cloned red fluorescent protein, has attracted great interest as

114 we develop an HBV reporter virus expressing red fluorescent protein (HBV-RFP) that is suitable for a

115 E-crystallin was expressed as FLAG-tagged or red fluorescent protein (HcRed)-tagged proteins, respect

116 (Cu(2+)) binding characteristics of the far-red fluorescent protein, HcRed, and its application in t

117 ant of mKeima, a monomeric long Stokes shift red fluorescent protein, hmKeima8.5.

118 the 5' untranslated region of mRNA encoding red fluorescent protein in Escherichia coli.

119 urons, and S100beta-DsRed mice which express red fluorescent protein in OECs.

120 Cre to obtain Chx10-Cre;Ai9 mice, expressing red fluorescent protein in retinal Cre-positive cells.

121 e nucleus with green fluorescent protein and red fluorescent protein in the cytoplasm for imaging, we

122 er cells labeled with GFP in the nucleus and red fluorescent protein in the cytoplasm.

123 leus with green fluorescent protein and with red fluorescent protein in the cytoplasm.

124 in cells labeled with GFP in the nucleus and red fluorescent protein in the cytoplasm.

125 ransgenic line of zebrafish that expresses a red fluorescent protein in the presumptive hair-cell pro

126 eneic C57BL/6N(su9-DsRed2) mice that express red fluorescent protein in their mitochondria.

127 elegans strains expressing green, yellow, or red fluorescent proteins in embryos and imaged embryos e

128 beam1)) partially resolves a mixture of four red fluorescent proteins in mixed samples.

129 Transient overexpression of ARK1-RFP (red fluorescent protein) increased microtubule catastrop

130 ] while reorganizing speckled Rnq1-monomeric red fluorescent protein into distinct foci.

131 the constitutive expression of a very bright red fluorescent protein into transformants.

132 ing the bone marrow of mice expressing infra-red fluorescent protein (iRFP) into LDLR-deficient mice,

133 n two-photon microscopy; however, the use of red fluorescent proteins is limited by the low power out

134 The DsRed-like chromophore formation in red fluorescent proteins is revisited on the basis of ab

135 cence video microscopy in cells expressing a red fluorescent protein labeled BLT1 and a green fluores

136 use of green fluorescent protein-labeled or red fluorescent protein-labeled HT-1080 human fibrosarco

137 reased metastatic propensity relative to the red fluorescent protein-labeled parental cells.

138 mKeima is an unusual monomeric red fluorescent protein (lambda(em)(max) approximately 6

139 address this issue, we identify and modulate red fluorescent protein-like fluorophores to bind Squash

140 small membrane protein, MgrB, tagged with a red fluorescent protein, lipopolysaccharides, and glycop

141 A fusion of COX19 to the red fluorescent protein localized to mitochondria in viv

142 ercome this limitation we have developed two red fluorescent proteins, LSS-mKate1 and LSS-mKate2, whi

143 e transgenic mouse, in which expression of a red fluorescent protein (mApple) is driven by the GLP-1R

144 Expression analysis using a red fluorescent protein marker showed that bus-2 is expr

145 trate that our transgenic lines that express red fluorescent protein markers offer exceptional suppor

146 In this work we show that the widely used red fluorescent protein mCherry can be brought to a pure

147 ning strain expresses nitroreductase and the red fluorescent protein mCherry exclusively in podocytes

148 The red fluorescent protein mCherry is of considerable inter

149 re YC3.6 cells without GPCR but expressing a red fluorescent protein (mCherry) for identification.

150 R4A-MD2-CD14 cells that are transformed by a red fluorescent protein (mCherry) gene under the transcr

151 man RSV reverse genetics system in which the red fluorescent protein (mCherry) or the firefly lucifer

152 Among the orange and red fluorescent proteins, mCherry and mScarlet-I are the

153 veloped FRET donor, monomeric cyan-excitable red fluorescent protein (mCyRFP1), which has a large Sto

154 to the C terminus of VACV A36, by monomeric red fluorescent protein (mDsRed), fused to the tetratric

155 The far-red fluorescent protein mKate (lambda(ex), 588 nm; lambd

156 An unusual near-infrared derivative of the red fluorescent protein mKate, named TagRFP675, exhibits

157 ally encoded pH sensor by mutagenesis of the red fluorescent protein mKeima, providing a new tool to

158 1a and FR-GECO1c, based on the monomeric far-red fluorescent proteins mKelly1 and mKelly2.

159 tion from S to G2 phase and engineered a far-red fluorescent protein, mMaroon1, to visualize chromati

160 luminating fusion protein combining a mutant red fluorescent protein (mOrange) and a mutant Renilla r

161 green fluorescent protein (GFP) or monomeric red fluorescent protein (mRFP) and the A(2) domain of CT

162 c effector Pi04314, expressed as a monomeric red fluorescent protein (mRFP) fusion protein with a sig

163 In these lines, a monomeric red fluorescent protein (mRFP) is encoded by an artifici

164 enic zebrafish line that expresses monomeric red fluorescent protein (mRFP) under the control of well

165 istribution of STIM1, labeled with monomeric red fluorescent protein (mRFP), to micrometer-scale ER-p

166 reen fluorescent protein (EGFP) or monomeric red fluorescent protein (mRFP).

167 RecA protein (RecA803 protein) to monomeric red fluorescent protein (mRFP1) to produce a functional

168 1 recombinant viruses that contain monomeric red fluorescent protein (mRFP1), a Flu hemagglutinin (HA

169 live bacteria, ActA was fused to a monomeric red fluorescent protein (mRFP1).

170 In this protocol a monomeric red fluorescent protein (mRFP1.2) was evolved in Ramos c

171 rtha derivative expressing a novel monomeric red fluorescent protein, mRFP1.

172 mFruits are second-generation monomeric red fluorescent proteins (mRFPs) that have improved brig

173 Fluorescence imaging of a red fluorescent protein (mStrawberry), co-expressed with

174 with lentivirus expressing nuclear-localized red fluorescent protein (nuRFP).

175 r recruitment of neutrophils labeled with Ds-Red fluorescent protein of Tg(lysC:DsRed) zebrafish upon

176 herefore imaged ASICs labeled with green and red fluorescent proteins on a single-molecule level, cou

177 However, using either red fluorescent protein or beta-galactosidase as fate ma

178 the mammalian MAP4 fused to the Discosoma sp red fluorescent protein) or YFP-TUA6 (yellow fluorescent

179 We focus on: (1) photoconvertible red fluorescent proteins (pcRFPs), thought to enhance ph

180 r glutamate partially converts zFP538 into a red-fluorescent protein, providing additional support fo

181 KillerRed (KR) is a red fluorescent protein recognized as an efficient genet

182 Monomeric mCherry red fluorescent protein recombinantly engineered to expr

183 een constructed by combining slower-maturing red fluorescent proteins (redFPs) with the faster-maturi

184 mphenicol acetyltransferase, luciferase, and red fluorescent protein reflecting an inhibition of APP

185 Fifteen lines with cardiac monomeric red fluorescent protein reporter expression were identif

186 Lytic-phase transition was documented by red fluorescent protein reporter expression, late struct

187 In this study we used an IL-17F-red fluorescent protein reporter mouse to analyze the pl

188 ated mice with green fluorescent protein and red fluorescent protein reporters linked to TCRalpha, re

189 arrestin-green fluorescent protein with BLT1-red fluorescent protein resulted in co-localization of B

190 oviral vector RCASBP (B) carrying the marker red fluorescent protein (RFP) and a GluA2 RNAi construct

191 uorescent tagging of ANAC017 with N-terminal red fluorescent protein (RFP) and C-terminal green fluor

192 cer cells were transduced with the Discosoma red fluorescent protein (RFP) and orthotopically implant

193 visual cortex, we labeled PV(+) neurons with red fluorescent protein (RFP) and targeted them for cell

194 nsgenic mice that express the Discomsoma sp. red fluorescent protein (RFP) and the enhanced green flu

195 1-green fluorescent protein (GFP) and Myo3/5-red fluorescent protein (RFP) at nascent endocytic sites

196 from the cellular EF-1alpha promoter and the red fluorescent protein (RFP) during lytic replication f

197 Indeed, red fluorescent protein (RFP) expression from mutated T-

198 a tyrosine hydroxylase (TH) promoter-driven red fluorescent protein (RFP) fluorescent reporter.

199 demonstrated through recovery of functional red fluorescent protein (RFP) from DNA coding for a non-

200 n (GFP) from the mRNA including an exon, and red fluorescent protein (RFP) from the mRNA lacking the

201 Expression of ORF23 as a red fluorescent protein (RFP) fusion protein appeared to

202 We genetically fuse a red fluorescent protein (RFP) gene and two binding sites

203 s the utility of the pPC vector, we cloned a red fluorescent protein (RFP) gene into the pPC vector a

204 riptional activity of NFAT via expression of red fluorescent protein (RFP) in individual cells.

205 FP) linked to histone H2B in the nucleus and red fluorescent protein (RFP) in the cytoplasm (HCT-116-

206 fluorescent protein (GFP) in the nucleus and red fluorescent protein (RFP) in the cytoplasm or with G

207 fluorescent protein (GFP) in the nucleus and red fluorescent protein (RFP) in the cytoplasm.

208 to histone H2B in the nucleus and retroviral red fluorescent protein (RFP) in the cytoplasm.

209 ulting photocaged intein was inserted into a red fluorescent protein (RFP) mCherry and a human Src ty

210 ms, we utilized a Th17 reporter mouse with a red fluorescent protein (RFP) sequence inserted into the

211 , we investigated the impact of a C-terminal red fluorescent protein (RFP) tag on the phase separatio

212 ses both green fluorescent protein (GFP) and red fluorescent protein (RFP) to reflect the latent and

213 The addition of exogenous Ealpha-red fluorescent protein (RFP) to the Ealpha-mCh yeast bo

214 y somatosensory area (SII) were labeled with red fluorescent protein (RFP) using retrograde viral inf

215 Red fluorescent protein (RFP) variants are highly sought

216 ization of RTE1, a functional RTE1 fusion to red fluorescent protein (RFP) was expressed under the co

217 shed a stable line of zebrafish in which the red fluorescent protein (RFP) was inserted into the pax8

218 An AtSRC2.2 protein fused to red fluorescent protein (RFP) was localized to the plasm

219 nant helper virus carrying a gene encoding a red fluorescent protein (RFP) whose expression correlate

220 ontaining green fluorescent protein (GFP) or red fluorescent protein (RFP) with HA packaging regions

221 A GBP fusion to the red fluorescent protein (RFP), a molecule termed a chrom

222 neurons in visual cortex of PV-Cre mice with red fluorescent protein (RFP), followed by targeted loos

223 Red fluorescent protein (RFP)-expressing human cancer ce

224 Using a red fluorescent protein (RFP)-expressing recombinant RRV

225 or fluorescence imaging is effected by using red fluorescent protein (RFP)-expressing tumors growing

226 Stably transfected red fluorescent protein (RFP)-GRalpha NTM5 cell lines we

227 Vascular structures as well as red fluorescent protein (RFP)-labeled neurons within the

228 luorescent protein-SSE1 colocalizes with the red fluorescent protein (RFP)-labeled peroxisomal marker

229 esicular structures and colocalized with the red fluorescent protein (RFP)-tagged EV marker, CD63, af

230 mitochondria, we found that cells expressing red fluorescent protein (RFP)-tagged Htt protein contain

231 ncer cell lines stably expressing MIST1 with red fluorescent protein (RFP)-tagged pepsinogen C, a key

232 three mammalian EB-proteins, EB3, fused with red fluorescent protein (RFP).

233 was monitored from astrocytes expressing NPY-red fluorescent protein (RFP).

234 , and in parallel with rAAV vectors carrying red fluorescent protein (RFP).

235 brain-derived neurotrophic factor (BDNF) and red fluorescent protein (RFP).

236 at midterm using recombinant RSV expressing red fluorescent protein (RFP).

237 upon their ubiquitination, both small [i.e., red fluorescent protein (RFP)] and large (i.e., peroxiso

238 ilizing the differential pH sensitivities of red fluorescent protein (RFP; pKa 4.5) and enhanced gree

239 ly expressed mutated oncogenes together with red fluorescent proteins (RFP).

240 Large Stokes shift (LSS) red fluorescent proteins (RFPs) are highly desirable for

241 Red fluorescent proteins (RFPs) derived from organisms i

242 of calcium ion (Ca(2+)) indicators based on red fluorescent proteins (RFPs) has created new opportun

243 The longer emission wavelengths of red fluorescent proteins (RFPs) make them attractive for

244 st step of the photobleaching kinetics in 13 red fluorescent proteins (RFPs) with different chromopho

245 LSSmKate1 and LSSmKate2 are monomeric red fluorescent proteins (RFPs) with large Stokes shifts

246 RF5 (rMERS*ORF5) and replaced it with tomato red fluorescent protein (rMERS-RFP) or deleted the entir

247 ent of a genetically encoded redox-sensitive red fluorescent protein (rxRFP).

248 rised of distinct combinations of different 'red' fluorescent proteins sandwiched around a nuclear lo

249 t its performance has not been duplicated in red fluorescent protein scaffolds.

250 The incorporation of a red fluorescent protein selection marker enables combine

251 reporter"-GFP fused to a nuclearly localized red fluorescent protein, separated by a TEVp cut site.

252 SL4-cancer cells expressing red fluorescent protein (SL4-RFP) (1 x 10(6)) were injec

253 The small Ultra-Red Fluorescent Protein (smURFP) represents a new class

254 The resultant red fluorescent protein, StayRose, shows an excitation w

255 h perturbed color vision caused by intrinsic red-fluorescent protein, suggesting that color vision ma

256 TrkB.T1 overexpression reduced the number of red fluorescent protein-synaptobrevin-labeled presynapti

257 Using red fluorescent protein-tagged ERK2 to track the subcell

258 Wild-type red fluorescent protein-tagged Gab1 could be observed in

259 Red fluorescent protein-tagged Gyp1p is concentrated on

260 sis by live cell imaging, by using monomeric red fluorescent protein-tagged mouse CD63 expressed in p

261 Using pairwise combinations of GFP- and red fluorescent protein-tagged proteins, we show that Ke

262 CP]) containing green fluorescent protein or red fluorescent protein TagRFP positive cells and counte

263 ed NOS1AP and a green fluorescent protein or red fluorescent protein (TagRFP) reporter in neuronal pr

264 S1 excitation for green fluorescent protein, red fluorescent protein (TagRFP), and kindling fluoresce

265 c8.6, used as BRET donors, combined with two red fluorescent proteins, TagRFP and TurboFP635, as BRET

266 Using a reporter mouse with red fluorescent protein targeted to the mitochondrion, w

267 nic model in which fetal tissues express the red fluorescent protein tdTomato while maternal tissues

268 man sodium iodide symporter (NIS) fused to a red fluorescent protein, thereby permitting radionuclide

269 imental phylogeny using the gene of a single red fluorescent protein to address this criticism.

270 l multi-site mutagenesis on a cyan-excitable red fluorescent protein to create the bright and monomer

271 structure detected by a fusion of monomeric red fluorescent protein to VP26.

272 nd mRuby2, which are the brightest green and red fluorescent proteins to date and have the highest Fo

273 aging in mice expressing GCaMP6s and nuclear red fluorescent proteins to sample activity in 75% of su

274 STIM1 and Orai1 were tagged with green and red fluorescent proteins to track them in live cells.

275 from expressing tandem dimer Tomato (tdT; a red fluorescent protein) to expressing green fluorescent

276 reen fluorescent protein and Cav-1-monomeric red fluorescent protein, to measure their interactions w

277 TH::RFP (tyrosine hydroxylase gene promoter::red fluorescent protein) transgenic mice.

278 s that clearly exhibit protein kinase Cgamma-red fluorescent protein translocation responses, relocal

279 CoV) as well as a derivative encoding tomato red fluorescent protein (tRFP) in place of ORF3.

280 r growing U251 human glioma cells expressing red fluorescent protein (U251-RFP) in zebrafish embryos.

281 d from retinas of transgenic mice expressing red fluorescent protein under control of the tyrosine hy

282 virus (ALV) receptor TVB, fused to monomeric red fluorescent protein, under regulation by Prdm1 trans

283 Similarly, MARCKS-ED tagged with monomeric red fluorescent protein undergoes antigen-stimulated osc

284 ce to induce permanent labeling of CoRL with red fluorescent protein variant tdTomato.

285 calization artifact of Entacmaea quadricolor red fluorescent protein variants that is detectable at t

286 citation light used to image cyan, green, or red fluorescent protein variants, allowing multicolor vi

287 in their lumen with complementary green and red fluorescent proteins, Venus and mCherry, they bound

288 dynamics of cells migrating in capillaries, red fluorescent protein was expressed in the cytoplasm,

289 Finally, mCherry red fluorescent protein was successfully expressed when

290 DsRed, a brilliantly red fluorescent protein, was recently cloned from Discos

291 PRY2 or hSPRY2 tagged at the C terminus with red fluorescent protein, we demonstrated that hSPRY2 inh

292 In addition to the two major classes of red fluorescent proteins, we briefly describe yellow flu

293 and breast cancer tumor cell line expressing red fluorescent protein were implanted orthotopically, a

294 Mice expressing Foxp3 as a red fluorescent protein were treated with SR2211 for 26

295 transfectants of C1498 expressing DsRed2, a red fluorescent protein, were generated.

296 ce PAmKate, a monomeric photoactivatable far-red fluorescent protein, which facilitates simultaneous

297 rescent protein [NPY-Venus] or NPY-monomeric red fluorescent protein), while the fate of the vesicle

298 Here we describe pHuji, a red fluorescent protein with a pH sensitivity that appro

299 e-activated cell sorting to create monomeric red fluorescent proteins with increased photostability a

300 hron progenitors tagged with either green or red fluorescent proteins yielded some mosaic nephrons, i