ライフサイエンスコーパス: mixer

1 orm mixing across streamlines that enter the mixer.

2 profiles at various points in the serpentine mixer.

3 l mixer, a 3D serpentine mixer, and a vortex mixer.

4 that is also present in the related protein Mixer.

5 nic phases to a mixing tee and in-line phase mixer.

6 om a thin plug of reagents introduced at the mixer.

7 on the degree to which the cell behaves as a mixer.

8 the dead time (ca. 2 ms) of the stopped-flow mixer.

9 as developed using a 3D printed microfluidic mixer.

10 of polygenic overlap was investigated using MiXeR.

11 uencing genetic variants was estimated using MiXeR.

12 ntegrated silicon core fibre as a parametric mixer.

13 the 8 mus reaction time using a conventional mixer.

14 ltrarapid hydrodynamic focusing microfluidic mixer.

15 to the sample solution, assisted by a vortex mixer.

16 due 110 and the heme using a continuous flow mixer.

17 uctured substrates, and microfluidic chaotic mixers.

18 oove, staggered herringbone, and herringbone mixers.

19 icantly different from that for conventional mixers.

20 mance with experiments using microfabricated mixers.

21 ns by spatially confined in-channel monolith mixers.

22 ms, including lasers, sensors, and frequency mixers.

23 triggered using an ultrafast continuous-flow mixer (150 micros dead time) reveal that heme attachment

24 time point attainable with a continuous-flow mixer (150 mus) confirm that the polypeptide ensemble is

25 achieved within the mixing dead time of the mixer (20 micros), and the first observable point for th

26 st reaction time probed using a conventional mixer (8 mus).

27 resentative microfluidic mixers: a Y channel mixer, a 3D serpentine mixer, and a vortex mixer.

28 rt the isolation of a zebrafish homologue of Mixer, a gene important for early endoderm formation in

29 Here, we present Annotation Informed-MiXeR, a likelihood-based method for estimating the numb

30 asketweave" of channels, a chaotic advective mixer, a system with "braided" channels, and a 3D grid o

31 In contrast to typical tree-like MCGG mixers, a fractional serial dilution of 1, 1/2, 1/4, and

32 l data for three representative microfluidic mixers: a Y channel mixer, a 3D serpentine mixer, and a

33 electrospray potential; a low-volume static mixer; a column packed with silica-based reversed-phase

34 dominant inhibitory mutant demonstrate that Mixer activity is required for endoderm development.

35 ct alignment of the exit jet from the sample mixer allowed up to 2 ml of sample to be frozen in a thi

36 a re-useable glass-chip comprising a chaotic mixer, an incubation channel and optical detection chamb

37 lity and heritability of complex phenotypes, MiXeR analysis may improve our understanding of cross-tr

38 Univariate MiXeR analysis revealed that migraine was substantially

39 Here we developed the GSA-MiXeR analytical tool for gene set analysis (GSA), which

40 ic chips, incorporating a passive sinusoidal mixer and a microhydrocyclone, respectively.

41 Without the presence of the mixer and at the same high flow rate, a channel length o

42 ercial NMR flow probe with a high-efficiency mixer and drive system.

43 In animal caps, VegT's ability to induce Mixer and Edd appears to depend upon SOX7 activity.

44 microfluidic device with integrated chaotic mixer and EMR has been successfully combined with subcut

45 s dispersed in polymer matrix using internal mixer and finally compressed into circular disk with 80

46 itiating the reaction with a sub-millisecond mixer and following its progression by Trp fluorescence,

47 downstream of VegT by testing the ability of Mixer and Gata5 to rescue the expression of other endode

48 mn (PFC kit) was installed in between eluent mixer and injector to reduce contamination.

49 tion occurred normally and expression of bon/mixer and mezzo, zygotic transcription factors indicated

50 ain transcription factors of the Mix family, Mixer and Milk, but not Mix.1, mediate activin/TGF-beta-

51 temporal and spatial expression patterns of Mixer and Milk, lead us to propose a model for mesoendod

52 s, such as Fast-1 or the Mix family proteins Mixer and Milk, through a direct interaction between Sma

53 ify a short motif in the carboxyl termini of Mixer and Milk, which is demonstrated to be both necessa

54 expression in animal caps is independent of Mixer and Nodal signaling.

55 med using a simple confined impingement jets mixer and provides an efficient and reproducible method

56 we discuss the design and fabrication of the mixer and quantify the mixing efficiency using wide-fiel

57 cycle, we have used a rapid continuous flow mixer and resonance Raman spectroscopy to generate and i

58 We find that Nodal genes, Mixer and Sox17 have both shared and distinct sets of do

59 ike the known vertebrate endoderm regulators Mixer and Sox17, END-1 is a potent activator of endoderm

60 obtained with a microfabricated diffusional mixer and synchrotron radiation.

61 system have been found, i.e., volumes of the mixer and the coils, the rate of sample and reagent, pH

62 Using the ultra-fast microfluidic mixer and the freeze-quenching device, coupled with EPR,

63 etween the initiation of the reaction in the mixer and the observation be long enough that molecular

64 analyzing base flipping using a microfluidic mixer and two-color two-photon (2c2p) fluorescence lifet

65 family homeodomain proteins, such as Xenopus Mixer and zebrafish Bonnie and clyde (Bon), have been sh

66 comprising efficient intravascular 3D fluid mixers and functional bicuspid valves.

67 g widely available three-syringe quench flow mixers and inexpensive reagents to study local changes i

68 compositional heterogeneity using high-shear mixers and membranes, to small-volume but more precise m

69 Compact and efficient wave mixers and optical sources spanning different frequency

70 he long mixing time of conventional solution mixers and the slow freezing time of cryogenic fluids.

71 505) using Gaussian causal mixture modeling (MiXeR) and conditional/conjunctional false discovery rat

72 c mixers: a Y channel mixer, a 3D serpentine mixer, and a vortex mixer.

73 ocoil, a low noise microwave preamplifier, a mixer, and an intermediate frequency (IF) amplifier.

74 casanova does not encode zebrafish Mixer, and mixer expression is normal in casanova mutant

75 d Xnr6, the homeodomain transcription factor Mixer, and the endodermal marker SOX17beta; both SOX7 an

76 em combining two syringe pumps, a commercial mixer, and the WTE, it is possible to change the concent

77 urs within the 250 micros mixing time of the mixer, and there appears to be no further evolution of t

78 ins, (ii) T-/Y-geometry microfluidic channel mixers, and (iii) devices for rapid detection of microbi

79 g resonant antennas, fixed RF amplifiers, RF mixers, and audio amplifiers.

80 lectronic devices such as Schottky diode THz mixers, and graphene modulators and photodetectors.

81 prototyping of three-dimensional "jumpers", mixers, and other key components of complex 3D microscal

82 ng columns, back-pressure regulators, static mixers, and packed-bed reactors.

83 g these effects in conjunction with those of Mixer- and Sox17beta-activating and dominant inhibitory

84 The transcription factors Fast-1 and Mixer are important terminal components of Smad2-mediate

85 Electronic frequency mixers are fundamental building blocks of electronic sys

86 cuit operates as a broadband radio-frequency mixer at frequencies up to 10 gigahertz.

87 igh denaturant in an ultrarapid microfluidic mixer at temperatures far below the thermal midpoint.

88 -plane F-S-F spin valves with a holmium spin mixer at the S-F interface providing evidence of a spin

89 pared favorably to both Tee and multilaminar mixers at low flow and was successfully used to screen a

90 hybridization chamber, which employs a fluid mixer based on chaotic advection theory to deliver targe

91 An economical and simple flow mixer based on magnetically driven agitation in a tube (

92 Judicious selection of mixers based on the chemistry requirement and real-time

93 n the approximately 200-microm-length static mixer bed, mixing was complete as determined by confocal

94 ivities, and determine whether FoxH1/Sur and Mixer/Bon can account for all Nodal signaling during emb

95 ese results and the association of FoxH1 and Mixer/Bon with phosphorylated Smad2 support a role for t

96 eins related to FoxH1 [Schmalspur (Sur)] and Mixer [Bonnie and clyde (Bon)] act within or downstream

97 Three mixer designs, a back-flow tee mixer (BT), an end-blocked membrane tee mixer (EMT), and

98 I) and the other with staggered herringbone mixers (called reactor II), were studied for the biolumi

99 Adding a mixer can circulate the input liquid, increasing the pro

100 mplex channel geometries as serpentine and Y-mixers can be designed, printed, and in use in under 2 h

101 the first time, that microfluidic diffusive mixers can be used for spatiotemporally high-throughput

102 r, lung, heart, gut, and endometrium, with a mixer chamber for systemic circulation and tolcapone dos

103 particles to the surface, while the chaotic mixer circulates the particles to increase the number br

104 ic method enables optimization of sample and mixer conditions to maximize the populations of intermed

105 pumps controlled by micro stepper motors, a mixer connected to a serpentine tube, and a high-pressur

106 The architecture of the mixer consists of a simple "T" junction, made up by a 20

107 wave of expression, including Brachyury and Mixer, contribute to the regulation of genes expressed i

108 idic electrochemical chip with an integrated mixer coupled online to trapped ion mobility spectrometr

109 ne (DEMA) or triethylamine (TEA) through a T mixer coupled to a time-of-flight mass spectrometer.

110 The two-mixer cross-split dilution engine increases the accuracy

111 provide a guide for designing FMBD-based THz mixers, depending on the operating frequency, available

112 In Mixer-depleted embryos, the expression of many signaling

113 Functional assays of Mixer-depleted vegetal cells showed that they have incre

114 hat dynamic hybridization based on a chaotic mixer design improves both the speed of hybridization an

115 The final mixer design was able to overcome stream splitting at hi

116 been developed with significant advances in mixer design, detection method and data analysis.

117 Using a microfluidic laminar flow mixer designed for studies of protein folding kinetics,

118 ng experiments of the original and optimized mixer designs show respective mixing times of 7 and 4 mu

119 Several mixer designs were fabricated and investigated.

120 Three mixer designs, a back-flow tee mixer (BT), an end-blocke

121 s cannot be prepared in current microfluidic mixer designs, nor is investigation of long-time scale r

122 1-3 microl/s) in comparison with other rapid mixer designs.

123 o minimize the mixing time of a microfluidic mixer developed for protein folding studies.

124 on instructions for both a microfluidic ring-mixer device and a 32-channel tabletop microfluidic cont

125 To validate the mixer device, the electrochemistry of ferrocene was also

126 New scaling relationships between mixer dimensions and operating conditions are derived an

127 However, conventional harmonic frequency mixers do not operate beyond hundreds of gigahertz to a

128 Furthermore, we find that Mixer does not function primarily via Sox17 as previousl

129 to evaluate the performance of the microwave mixer, droplets with highly viscous fluid, 75% (w/w) gly

130 tee mixer (BT), an end-blocked membrane tee mixer (EMT), and a tubular membrane mixer (TM), were fab

131 sults indicate that employing a microballoon mixer enhances the detection sensitivity of the dengue v

132 gned and tested a novel microfluidic silicon mixer equipped with a new freeze-quenching device, with

133 iation study data from 139 053 participants, MiXeR estimated schizophrenia to be more polygenic (9703

134 Trivariate MiXeR estimated substantial polygenic overlap of pregnan

135 MiXeR estimated the number of "causal" variants for a gi

136 MiXeR estimates correlated with LAVA local r(g) (r=0.88,

137 P-heritability explained for each phenotype, MiXeR estimates that 8.3 K variants causally influence s

138 At a sample flow rate of 20 microL/s, the mixer exhibits a short mixing deadtime of approximately

139 The mixer exploits hydrodynamic focusing to create a thin je

140 asanova does not encode zebrafish Mixer, and mixer expression is normal in casanova mutants, indicati

141 embrane protein Oep are essential for normal mixer expression.

142 scription factors belonging to the FoxH1 and Mixer families are required for facets of Nodal signalin

143 luidic device consists of microfluidic pumps/mixers, fluid channels, reagent chambers, and a DNA micr

144 ration of H(2)(18)O in a rapid-quenched-flow mixer followed by mass spectrometric quantitation.

145 ing a variable-time labeling pulse, a static mixer for HDX quenching, a proteolytic microreactor for

146 onstruction and characterization of a 100-pL mixer for liquids transported by electroosmotic flow.

147 ixer is the fastest reported continuous flow mixer for protein folding.

148 We have developed a microfluidic mixer for studying protein folding and other reactions w

149 nsive study has been done to optimize such a mixer for various applications.

150 lyses to illustrate the design principles of mixers for DEP-based concentrators.

151 Because mixers for DEP-based microconcentrators aim to circulate

152 esults pave the way for GFETs optoelectronic mixers for mm-wave applications, such as telecommunicati

153 xic buffers (using a computer-controlled gas mixer) for 45 min.

154 The flows are mixed in the mixer forming the emulsion in which the free fatty acids

155 identified endodermal determinants, require Mixer function.

156 maternal VegT, including Xsox17alpha, Bix4, Mixer, GATA4 and Edd.

157 el network functioning as an oxygen-nitrogen mixer generates differential oxygen concentration.

158 amagnetic nanoparticles, and several passive mixer geometries were assessed for their mixing efficien

159 al minimum of the mixing time by varying the mixer geometry and flow conditions.

160 esearch to observe effects of surfactant and mixer geometry in real-world scale, with potential for i

161 A novel passive microfluidic silicon mixer has been designed, optimized and fabricated.

162 insic performance of the FMBD as a frequency mixer has not been fully reported, and there has been li

163 Finally, GSA-MiXeR has quantified the contribution of gene sets to th

164 oom cold tap, one bath, and one bedroom sink mixer [hot/cold] taps).

165 hromatographic pump, with the worst of these mixers, imperfect mixing accounted for 99.6% of the obse

166 escribe the design and characterization of a mixer in which hydrodynamic focusing is decoupled from t

167 rmed by coupling two nondegenerate Josephson mixers in an interferometric scheme and driving them wit

168 s for microvehicles, microfluidic valves and mixers in laboratory-on-chip devices, and adaptive optic

169 ction of Xbra and MyoD, but not Sox17beta or Mixer, in response to Xnr1.

170 t a facile strategy of connecting an in-line mixer, in-line mixing modulation (ILMM), to realize chal

171 MiXeR indicated 82.2% polygenic overlap, despite an r(g)

172 Overexpression of mixer induces ectopic sox17-expressing cells in wild-typ

173 te different design choices, such as various mixers, initial states, and QRAO-specific implementation

174 The mixer injects a narrow cylindrical stream (radius a < 1

175 rred in the 100-microm-wide, 300-microm-long mixer inlet channel where mixing would be achieved almos

176 The designed microwave mixer is a coplanar design with a small footprint, which

177 Together, these data suggest that Mixer is an embryonic transcription factor involved in s

178 A microfluidic mixer is applied to study the kinetics of calmodulin con

179 The performance of the mixer is characterized by mixing phenolphthalein solutio

180 Mixing in the microfluidic mixer is characterized, mechanisms underlying mixing are

181 A chip-based mixer is incorporated to transform the sample by dissolv

182 The optimized mixer is the fastest reported continuous flow mixer for

183 The mixer is used in conjunction with multiphoton microscopy

184 eam targets of VegT, the homeodomain protein Mixer, is expressed at high levels at the mesoderm/endod

185 Using the microfabricated mixer, Km and kcat values of 75 +/- 13 microM and 44 +/-

186 s (RO) technology, enhanced by Kenics static mixers (KSM) to improve mass transfer.

187 ich is populated within the dead time of the mixer (<10 mus) and has a characteristic Trp-59-heme dis

188 two species, design specifications for such mixers may be significantly different from that for conv

189 Using the MiXeR method, which can estimate polygenic overlap beyon

190 characterization of a novel active micropump-mixer microfluidic to address this need.

191 cruiting active Smad2/Smad4 complexes to the Mixer/Milk-binding site.

192 ichloromethane-methanol (8:2) and mixed in a mixer mill (MM400, Retsch technology).

193 of molecules in good to excellent yield in a mixer mill (RETSCH MM400) engaging the commercially avai

194 7, 14, 21, 28, and 35 min) using a cryogenic mixer mill to produce probiotic-loaded SLMs.

195 It is carried out in a mixer mill using stainless-steel jars and balls.

196 source and a small amount of H(2)SO(4) in a mixer mill.

197 by these receptors lead to the expression of mixer, Mixer then acts through casanova to promote the e

198 that quantitatively explains this biphasic 'mixer' model for cell size control.

199 We further explore mixer models of size control, where a timer phase preced

200 Probe (MMP), which integrates a built-in pre-mixer network of channels and features a lined array of

201 In the serpentine mixer, OCT image analysis revealed that the mixing effic

202 Here, we describe a new kind of robotic mixers of liquids, based on electro-responsive smart mat

203 The alcove-based microfluidic silicon mixer offers unique advantages for its short deadtime an

204 e also tested the effect of the microballoon mixers on the detection of the dengue virus.

205 ls and scientific talks, a casual networking mixer, online advocacy and amplification sessions, and a

206 tum limited like conventional amplifiers and mixers, only when optical homodyne or heterodyne detecti

207 Although the mixer operates at low Reynolds numbers (less than 10(2))

208 Once familiar with quench-flow mixer operation and its calibration, nucleic acid labeli

209 We have developed a microfluidic mixer optimized for rapid measurements of protein foldin

210 RNA encoding a dominant negative version of Mixer or a morpholino against SOX17alpha2, both of which

211 re sources, fluid storage, mechanical pumps, mixers, or valves were necessary for fluid manipulation,

212 sion phenomena and a characterization of the mixer performance using microparticle image velocimetry,

213 Recent studies demonstrate that Fast-1 and Mixer play critical roles in the formation of endoderm a

214 This demonstrates that Mixer plays an essential role in controlling the amount

215 me is 2 orders of magnitude less than in any mixer previously coupled to a mass spectrometer.

216 ing advantage of an integrated Kenics static mixer printhead to create plant and animal cell-based hy

217 receivers based on low-noise amplifiers and mixers, provided that a photon conversion efficiency gre

218 nts include an adjustable position capillary mixer providing a variable-time labeling pulse, a static

219 In conjunction with a stopped-flow mixer, providing a time-resolved capability, this proced

220 ver, our MoS(2) rectifier acts as a flexible mixer, realizing frequency conversion beyond 10 gigahert

221 ture dependent, increased temperature at the mixer resulted in higher sensitivity.

222 MiXeR results are presented as a Venn diagram of unique

223 ts results of the effects of mixing time and mixer revolution counts on characteristics of lab-made p

224 ndicate that with increasing mixing time and mixer revolution counts, mixtures with a replacement of

225 In the microfluidic silicon mixer, seven 10-microm-diameter vertical pillars are arr

226 xperimental use of the staggered herringbone mixer (SHM) for the signal enhancement of a microfluidic

227 examine the use of the staggered herringbone mixer (SHM) to increase the efficiency of analyte delive

228 we identify residues in the SIM critical for Mixer-Smad2 interaction and confirm their functional imp

229 asthma subtypes and asthma-related traits by MiXeR software and linkage disequilibrium score regressi

230 (MD) and general intelligence (INT) with the MiXeR statistical tool and their overlapping susceptibil

231 y, we present a microwave-based microfluidic mixer that allows rapid mixing within individual droplet

232 We have constructed a laminar coaxial jet mixer that allows the measurement of UV-excited fluoresc

233 monolithically integrated optical waveguide mixer that can deliver multicolor light at a common wave

234 demonstrate a new droplet-based microfluidic mixer that induces chaotic mixing of crowded solutions i

235 We describe a microfluidic mixer that is well-suited for kinetic studies of macromo

236 complexes with transcription factors such as Mixer that only contain a SIM.

237 This paper presents a microfluidic mixer that uses acoustic stirring created by ultrasonic

238 idic mixing is usually achieved with passive mixers that are robust but poorly flexible, or active mi

239 framework for designing active microfluidic mixers that can efficiently homogenize a wide range of c

240 at are robust but poorly flexible, or active mixers that offer dynamic control but mainly rely on ele

241 used to isolate a homeobox-containing gene, Mixer, that can cause embryonic cells to form endoderm.

242 abandoned, primarily due to a malfunctioning mixer, the main valve or the gas pipe.

243 gated silver nanoparticles in a microfluidic mixer; the nanoparticle-reporter conjugates are then tra

244 e receptors lead to the expression of mixer, Mixer then acts through casanova to promote the expressi

245 rane tee mixer (EMT), and a tubular membrane mixer (TM), were fabricated and compared to three commer

246 have coupled a microfabricated laminar-flow mixer to a confocal optical system.

247 nes interdigitated electrodes with a chaotic mixer to achieve high-throughput (>100 microL/min) parti

248 ive magnetic separator combined with on-chip mixer to both purify and concentrate whole-particle huma

249 omogeneous bioreagents, by utilizing the pre-mixer to create distinct concentration of injected bioch

250 kscrew on the sample line acts as a vertical mixer to enable more continuous loading.

251 Here we applied MiXeR to investigate shared genetic architecture between

252 casanova acts downstream of, or parallel to, mixer to promote endoderm formation.

253 72 h, without the aid of a passive or active mixer to shorten the time of transport of a target molec

254 We then apply the mixer to single molecule FRET protein folding studies of

255 th a homemade continuous-flow rapid solution mixer to study the structural properties of the metastab

256 ulate the movement of powder blends from the mixer to the press.

257 or ethanol) and widely available quench-flow mixers to reveal transient, often short-lived, intermedi

258 rthermore, we applied causal mixture models (MiXeR) to explore polygenic overlap between pregnancy-re

259 ines (i) the bivariate causal mixture model (MiXeR) to quantify polygenic overlap and (ii) the conjun

260 applied the bivariate causal mixture model (MiXeR) to summary statistics for four mental disorders,

261 Furthermore, the GSA-MiXeR tool improves biological interpretation of GWAS fi

262 First, we applied the MiXeR tool to estimate the total number of causal varian

263 MiXeR tools have provided new insights into the genetic

264 e outline the methodology that underlies the MiXeR tools together with instructions for their optimal

265 finitesimal model, uni-, bi-, and trivariate MiXeR tools, applied to GWAS summary statistics, has ena

266 Mixer transcripts are found specifically in the prospect

267 htop-scale batch created with a rotor-stator mixer, transitioned into an in-line manufacturing proces

268 Further, MiXeR uncovers polygenic overlap between schizophrenia a

269 The submillisecond mixer used here improves the time resolution by a factor

270 e discuss the design and optimization of the mixer using modeling of convective diffusion phenomena a

271 e submillisecond timescale with microfluidic mixers using a variety of probes including tryptophan fl

272 rescence versus distance downstream from the mixer, using an Hg(Xe) arc lamp for excitation and a dig

273 uidic device consists of microfluidic pumps, mixers, valves, fluid channels, reagent storage chambers

274 biochip device that consists of microfluidic mixers, valves, pumps, channels, chambers, heaters, and

275 ode (ILD) and a dielectric optical waveguide mixer via a gradient-index (GRIN) lens.

276 and compared to three commercially available mixers, Visco-Jet Micro mixer (VJM) and HS binary tee mi

277 mmercially available mixers, Visco-Jet Micro mixer (VJM) and HS binary tee mixer with 2 and 10 muL vo

278 The channel network composing the mixer was approximately 10 microm deep.

279 The microfluidic mixer was tested by the reaction between azide and myogl

280 genetic associations with TBI, and bivariate MiXeR was used to estimate phenotype specific and shared

281 A computer-controlled low-pressure mixer was used to generate solvent gradients.

282 The bivariate causal mixture model (MiXeR) was applied to estimate the number of shared vari

283 Using this mixer we have measured sub-millisecond fluorescence quen

284 Using a microfluidic mixer we have observed the rate of intramolecular diffus

285 Mixing patterns in the vortex mixer were compared with light-microscopy and OCT image

286 d a low cost cavitation microstreaming based mixer which is easy to implement and use, but no compreh

287 Here we introduce a statistical tool, MiXeR, which quantifies polygenic overlap irrespective o

288 isco-Jet Micro mixer (VJM) and HS binary tee mixer with 2 and 10 muL volume (HS-2 and HS-10) mixing c

289 yme, as a function of time in a microfluidic mixer with a dead time of approximately 20 mus.

290 microm, exits from the microfluidic silicon mixer with a linear flow velocity of 20 m/s.

291 em accommodated a miniature quartz capillary mixer with an approximately 0.5 microliter delivery volu

292 The microfluidic mixer with the simulation-optimized geometry was fabrica

293 specific bacterial labeling, a finger-driven mixer with two serial air chambers for efficient immunor

294 tics within the continuous flow microfluidic mixer, with results showing good agreement with computat

295 design enables rapid in-lab construction of mixers without the need for expensive lithography-based

296 The mixer works essentially as a resonator that accumulates

297 ale in a compact and scalable form, harmonic mixers would enable field-resolved optical signal analys

298 Bix1, Bix3, Bix4, Milk (Bix2), Mix.1, Mix.2, Mixer, Xsox17 alpha, Gata4, Gata5, Gata6 and endodermin,

299 nscriptional regulators encoded by the genes Mixer, Xsox17, and HNF3beta; zebrafish One-eyed pinhead

300 lgorithm with a Hamming-weight-preserving XY mixer (XY-QAOA) on trapped-ion quantum computer.