ライフサイエンスコーパス: translocation

1 ing group P65 by phosphorylation and nuclear translocation.

2 host proteins required for Dot/Icm effector translocation.

3 Nup153 is critical for its efficient nuclear translocation.

4 cterial escape from phagosomes and cytosolic translocation.

5 he mechanisms of ribosome recycling and tRNA translocation.

6 ATP binding drives unidirectional substrate translocation.

7 can be exploited to tune the kinetics of DNA translocation.

8 tial conformational changes during substrate translocation.

9 d be mimicked by chemical inhibition of NFAT translocation.

10 e RB and may be involved in its function and translocation.

11 HD1 impaired not only CSR but also IgH/c-Myc translocation.

12 pecific rearrangements, supporting substrate translocation.

13 mTORC1-dependent repression of TFEB nuclear translocation.

14 g, with implications for gating or substrate translocation.

15 dence of altered gut permeability and fungal translocation.

16 orespore cytoplasmic leakage and loss of DNA translocation.

17 ing (Alt-NHEJ) events, including chromosomal translocations.

18 including off-target editing and chromosomal translocations.

19 ctivities of the POLD1 subunit contribute to translocations.

20 class switch recombination, and oncogenic Ig translocations.

21 Ten-eleven translocation 1 (TET1) plays a part in these processes b

22 regulator, Mkl-1 (megakaryoblastic leukemia [translocation] 1).

23 Ten-eleven translocation-2 (TET2) is a member of the methylcytosine

24 ssing GCB cells this caused enhanced nuclear translocation, a profoundly altered transcriptional prog

25 ence staining were performed for IL6 and p65 translocation, a subunit nuclear factor kappa-light-chai

26 nal changes, ultimately leading to substrate translocation across biological membranes.

27 mbrane domains (TMDs) implicated in effector translocation across target cell membranes.

28 The main driving force for their translocation across the inner membrane is provided by t

29 ction in co-translational insertion into and translocation across the inner membrane of E. coli.

30 hich could impair protein insertion into and translocation across the inner membrane, were unaffected

31 the type II secretion system is required for translocation across the outer membrane and that a cyste

32 inner membrane with energy-dependent pyocin translocation across the outer membrane.

33 her otherwise cryptic human-mediated species translocations across the Quaternary, yet these techniqu

34 sequences and thus suggest that chromosomal translocations alone may play an underappreciated role i

35 d hydrolysis by StXPB could lead to a spiral translocation along dsDNA and DNA strand separation by t

36 chains appear critical for effective radical translocation along the PCET pathway.

37 rs trigger PA production required for mTORC1 translocation and activation at the lysosome.

38 crease in Keap1 and facilitated Nrf2 nuclear translocation and antioxidant gene transcription.

39 neuron differentiation, such as soma ventral translocation and axonal targeting.

40 Akt-mediated SRF activation promotes nuclear translocation and binding of Egr2 to SOCS1 promoter for

41 of PHB1 at Thr258, resulting in its nuclear translocation and binding to the Axin1 promoter.

42 C. burnetii actively prevented CHOP nuclear translocation and downstream apoptosis in a T4SS-depende

43 TORC1 pathway and promotes TFEB/TFE3 nuclear translocation and enhances FAM134B transcription.

44 morphology changes, and induced beta-catenin translocation and GSK-3beta phosphorylation in the absen

45 r normal upon ART, indicating that microbial translocation and immune activation can be improved duri

46 TSR mechanisms include reduced absorption or translocation and increased sequestration or metabolic d

47 eps affected by the absence of CL in protein translocation and insertion, we analyzed translocon acti

48 on, which suppresses kindlin-2 mitochondrial translocation and interaction with pyrroline-5-carboxyla

49 rs that revealed the link between chromosome translocation and peptidoglycan remodeling.

50 the IKK complex components prevents nuclear translocation and phosphorylation of NF-kappaB, thereby

51 pP apical surface during processive steps of translocation and proteolysis.

52 from the much larger fraction that undergoes translocation and quality control are produced with dela

53 The structures show that both substrate translocation and release involve movements of the bulky

54 f RIPK1 or MLKL attenuated RSV-induced HMGB1 translocation and release, and lowered viral load.

55 epithelial high-mobility group box 1 (HMGB1) translocation and release, increased type 2 innate lymph

56 ctors ensure coordination between chromosome translocation and septal peptidoglycan remodeling to mai

57 Bacterial translocation and subsequent sepsis were minimal in 7 Gy

58 strated presence of the diagnostic EWSR1-WT1 translocation and these 12 samples were used for the rem

59 ression and stimulates NF-kappaB p65 nuclear translocation and transactivation of NF-kappaB to promot

60 ed FUS phosphorylation regulates FUS nuclear translocation and transcription of a major profibrotic c

61 E(2) promotes Yap dephosphorylation, nuclear translocation and transcriptional activity by signalling

62 case nsp10 is a multifunctional protein with translocation and unwinding activities and plays a vital

63 , which share a common mechanism of helicase translocation and unwinding activity.

64 case phenotype, leading to the regulation of translocation and unwinding during replication.

65 ulting in attenuated mycobacterial cytosolic translocation and virulence.

66 permeabilization and mycobacterial cytosolic translocation and virulence.

67 hboring gene, PVT1, which are related to MYC translocations and associated with divergent progression

68 le architecture related alterations, such as translocations and gene fusions, are often cancer driver

69 elationship between gut integrity, microbial translocation, and inflammation in PHIV is poorly unders

70 f disease progression, gut damage, bacterial translocation, and inflammation.

71 esses, such as signal transduction, molecule translocation, and ion transport, among others; conseque

72 e functional transitions between initiation, translocation, and termination modes.

73 3a phosphorylation, increased FOXO3a nuclear translocation, and upregulated high temperature requirem

74 Hi-C was very sensitive in detecting translocations, and it revealed previously unrecognized

75 phage phi29 motor contacts DNA bases during translocation; and (iii) one theoretical model, the 'B-A

76 llenge, we developed a cytoplasm-to-membrane translocation approach, where FGFR ICD is recruited from

77 Gut dysbiosis and microbial translocation are associated with chronic systemic immun

78 rate cleavage, ATP hydrolysis, and substrate translocation are coordinated in a transport cycle.

79 Long distance translocation arises when successive bouts of active tra

80 inding interaction appears to prime CDTa for translocation as the adaptor subdomain enters the lumen

81 e cells undergo characteristic mitotic somal translocation behavior previously only observed in human

82 double-strand break (DSB) and more frequent translocations between two DSBs.

83 gosome rupture and M. tuberculosis cytosolic translocation but also function as modulators of host im

84 proteins required exon 1a for mitochondrial translocation, but fluorescence microscopy of MOCS1AB va

85 t insights into O antigen recruitment to and translocation by WzmWzt and related ABC transporters.

86 tudied Buddleja species showed restricted Cd translocation capacity.

87 -flow methods to the analysis of polypeptide translocation catalyzed by these ATPase motors.

88 p-p38 upregulation, ROS induction, and HMGB1 translocation (CC1-KO->WT), whereas ASK1 silencing (siRN

89 tes involves a universally conserved protein translocation channel formed by the Sec61 complex.

90 that open and active chromatin at the major translocation cluster locus might facilitate the t(11;14

91 We find that when the AIF-Mia40 translocation complex is disrupted, the part of CI that

92 , 14 of 15 B cells showed a BCL2/JH t(14;18) translocation, confirming cellular malignancy with a clo

93 hod HiNT (Hi-C for copy Number variation and Translocation detection), which detects copy number vari

94 ve detection of AML-associated mutations and translocations, determination of MRD is complicated by t

95 ch the intrinsically unstructured N-terminal translocation domain (IUTD) of the endonuclease bacterio

96 All three DT domains (enzymatic domain, translocation domain and receptor binding domain) are ta

97 O->WT) by enhancing ROS expression and HMGB1 translocation during cold storage, data supported by in

98 o-HCT) recipients, as a result of intestinal translocation during neutropenia.

99 d biochemical assays to monitor template DNA translocation during RNA synthesis from the pyrG promote

100 in particular gastric digestibility and the translocation efficiency across intestinal epithelial ce

101 of-function enzymes that greatly improve DNA translocation efficiency and nucleosome remodeling in vi

102 minin-integrin alpha6 upregulates ten-eleven translocation enzyme 3 (TET3) dioxygenase.

103 All chromosome translocation events were accompanied without any detect

104 f TGF-beta signaling, Smads and XBP1 nuclear translocation, expression of GRP78 and XBP1 (ER stress m

105 (5A/5A) B cells reveal increased chromosomal translocations, extensive use of distal switch regions (

106 tudy reinforces the effectiveness of the 2NS translocation for blast resistance and emphasizes the ur

107 confirmed by quantifying the free energy of translocation for the two drugs via molecular dynamics s

108 ) or ligase 4 (LIG4) does not further reduce translocation frequency compared to POLD2 depletion alon

109 In situ analysis of the size and translocation frequency of HKUST-1 nanoparticles is demo

110 erase cluster was derived by duplication and translocation, frequently rearranged and lost in most My

111 on on 6BL which we propose is a compensating translocation from Ae. peregrina chromosome 6U(p)L due t

112 olved in vesicular export allowing allantoin translocation from roots to shoots.

113 Microbial translocation from the gut to systemic circulation contr

114 ion and cause loss of enzymatic activity and translocation from the nucleolus into nucleoplasm.

115 3, also known as MTG16 or ETO2) is a myeloid translocation gene family protein that functions as a ma

116 cus species complex revealed that chromosome translocations generated via centromere recombination ha

117 Furthermore, insulin signaling, SkM GLUT4 translocation, hexokinase activity, and glycolysis were

118 Myc mice, which model the MYC/IGH chromosome translocation in Burkitt's lymphoma, homozygous Mnt dele

119 current study, we explore whether microbial translocation in CD serves as a central cue for CrF deve

120 ly separated transfer of electrons to proton translocation in complex I is not known.

121 edox reactions to quinone turnover to proton translocation in complex I.

122 sphorylation, feedback inhibits TFEB nuclear translocation in hepatocytes.

123 ported to shoots either for organic nitrogen translocation in legumes or for plant protection during

124 for insulin-stimulated glucose transporter 4 translocation in mouse skeletal muscle.

125 In this work, we capture substrate translocation in the heterodimeric ABC exporter TM287/28

126 between ion or electron transfer and proton translocation in this large protein family is unknown.

127 y, we observed evidence of inter-centromeric translocations in the common ancestor of C. albicans and

128 Moreover, the 3q26 translocations in these AML patients often involve super

129 captures it in an open conformation that is translocation-incompetent.

130 responsiveness to light through an arrestin-translocation-independent mechanism.

131 We evaluated whether CPT reduces microbial translocation, indicated by the presence of bacterial li

132 is a unique nucleoside reverse transcriptase translocation inhibitor in clinical development for trea

133 ine [EFdA]) is a novel reverse transcriptase-translocation inhibitor.

134 t regularly-spaced motifs well suited to DNA translocation into bacteria through the tail.

135 Following their translocation into different regions of the brain, nanom

136 ClpP work in tandem for processive substrate translocation into the ClpP proteolytic chamber.

137 -ring hexamer powers substrate unfolding and translocation into the ClpP proteolytic chamber.

138 c61-dependent Ca(2+) homeostasis and protein translocation into the ER.

139 sion of CCR2, resulting in enhanced monocyte translocation into the lung, Mo-AM differentiation, and

140 Besides observing LD translocation into vacuoles, we also provide evidence fo

141 Translocations involving the Mll1 (Kmt2a) gene generate

142 Chromosomal NUP98-PHF23 translocation is associated with an aggressive form of a

143 where the coupling between sodium and proton translocation is facilitated by a series of electrostati

144 This translocation is mainly acquired in precursor B cells me

145 Rather, translocation is rapid and thermodynamically favorable a

146 We also observed that this cytoplasmic translocation is required for full activation of the JNK

147 9 (ARM6-9) of KAP3, required for its nuclear translocation, is also necessary and sufficient for its

148 in affinity for PKC but exhibit variable PKC translocation kinetics.

149 cus on a conformational rearrangement during translocation, known as P/E hybrid-state formation.

150 It usually harbors the t(2;5) (p23;q35) translocation, leading to the ectopic expression of NPM-

151 y to represent the first steps in the proton translocation mechanism.

152 tic regulator of gene expression: ten-eleven translocation methylcytosine dioxygenase 2 (TET2).

153 , including plasma cells bearing the t(4;14) translocation obtained from patients with high-risk mult

154 oth MCL subtypes, whereas in 8% of cases the translocation occurs in mature B cells mediated by activ

155 Here, we study the capture rate and translocation of 1-5 kbp double-stranded DNA molecules t

156 n, enhanced spine Ca(2+) transients, nuclear translocation of a CaM shuttle, and nuclear CaMKIV activ

157 In this subtype of AML, the translocation of a GATA2 enhancer (3q21) to MECOM (3q26)

158 e intestinal tract of mice correlated to the translocation of a gut-resident human pathogen Escherich

159 find that the LC-CA1 projection signals the translocation of a reward, predicting behavioral perform

160 ature hippocampal neurons, we observed rapid translocation of a subpopulation of MAP2, present in den

161 bly, FCHSD2 depletion results in the nuclear translocation of active extracellular signal-regulated k

162 tment with these five compounds leads to the translocation of AXIN2 to the mitochondria, which result

163 dysfunctional gut barrier, facilitating the translocation of bacteria and inflammagens, and is impli

164 treatment resulted in increased paracellular translocation of bacteria or bacterial products through

165 osis did not affect accumulation and nuclear translocation of beta-catenin, as measured by single-cel

166 Electrokinetic translocation of biomolecules through solid-state nanopo

167 ivation of c-Jun was demonstrated by nuclear translocation of c-Jun, enhanced phosphorylation (Ser73)

168 as linked with their ability to regulate the translocation of CD107a to the cell surface and kill cel

169 CLOCK and BMAL1 and interferes with nuclear translocation of CLOCK both in vivo and in vitro Results

170 y major gene, whose impairment could trigger translocation of CSF-cNs outside the central canal area,

171 inding, hydrolysis, and phosphate release to translocation of diverse substrates across membranes.

172 Translocation of DNA and RNA polymerases along their dup

173 The structure also shows how translocation of DNA into the capsid could be modulated

174 ergetically favorable conditions for passive translocation of dNTPs into the HIV-1 capsid.

175 Further, LE mice demonstrated baseline translocation of E. coli into the liver and spleen and w

176 of multiple SWI/SNF subunit mutations in the translocation of endometrium to distal sites, with loss

177 Translocation of Escherichia coli was associated with th

178 the circulating blood, potentially improving translocation of fluid from the tissues to the circulati

179 agonist GW4064, which is suggested to induce translocation of FXR from the cytosol into the nucleus,

180 Loss of WASp impedes nuclear translocation of GOLPH3 and its colocalization with the

181 n and integrin alpha6beta1-dependent nuclear translocation of HIF1alpha.

182 orchestrates the challenging task of nuclear translocation of HIV-2/SIV genome in nondividing target

183 ealed that LH stimulates phosphorylation and translocation of HSL to lipid droplets.

184 of CD44 receptor with specific mAb triggered translocation of Hyal2 enzyme to the cellular surface an

185 ement action for reducing extinction risk is translocation of individuals to locations from which the

186 let water molecules rapidly pass, while the translocation of ions, including protons, is efficiently

187 diated IFN production is mediated by nuclear translocation of IRF3 whereas TLR9-mediated activation o

188 ime-lapse confocal imaging showed that spine translocation of MAP2 was coupled with LTP-induced spine

189 arge subunit mL40, mL48, and mL64 coordinate translocation of mt-tRNA.

190 sites promote cell invasion by facilitating translocation of MT1-MMP-laden endosomes to the plasma m

191 stable complex that is essential for nuclear translocation of NAMPT.

192 embrane channel that is involved in both the translocation of nascent proteins across cell membranes

193 flammatory phenotype associated with nuclear translocation of NF-kappaB and production of IL-1beta(+)

194 hanistically, phenformin induces the nuclear translocation of NFATc1 in keratinocytes in an AMPK-depe

195 ration, the LV showed an increase in nuclear translocation of NFkappaB (p65), whereas the RV showed i

196 of PHH to HBV particles resulted in nuclear translocation of NFkappaB, followed by the expression an

197 al piRNAs, which prevents precocious nuclear translocation of NRDE-3 in the early embryo.

198 n in a p65-dependent fashion and the nuclear translocation of p65 as mediated through SETD1, suggesti

199 CH-1 was found to be required to prevent the translocation of PAF26 across the plasma membrane.

200 e for recruiting Parkin to mitochondria, but translocation of Parkin to the nucleus occurs independen

201 Translocation of pathogen-associated molecular patterns

202 ule optical tweezers measurements to compare translocation of phage, plasmid, and synthetic A-philic,

203 Attenuated membrane translocation of PKC(epsilon) appeared to be a likely mo

204 Translocation of proteins across biological membranes is

205 ivity mediates growth factor-induced nuclear translocation of Raptor, a regulatory scaffolding compon

206 1/Armitage RNA helicase then facilitates the translocation of ribosomes into the uORF downstream regi

207 showed the inhibition of EGFR caused nuclear translocation of S6K1 for binding with MDM2 in resistant

208 rtant and attractive system for studying the translocation of small molecules across biological membr

209 lycolysis in mammalian cells induces ciliary translocation of Smo-a key step in pathway activation-in

210 , as a Dot/Icm mutant showed reduced nuclear translocation of TFEB and TFE3.

211 ROS-dependent glutathionylation and membrane translocation of the alpha1c subunit of Cav1.2 LVDCCs.

212 cally, this phenotype is ascribed to nuclear translocation of the basic helix-loop-helix transcriptio

213 binding of external K(+) impedes the forward translocation of the blocker, provides a powerful avenue

214 -InsP(4) but not 3,5-(PP)(2)-InsP(4) induced translocation of the C2AB domain of granuphilin from the

215 n immunological synapse, rapid dynein-driven translocation of the centrosome toward the contact site

216 al analyses demonstrated that CDCP1 promotes translocation of the key regulators of Wnt signaling, be

217 ignaling via high-content imaging of nuclear translocation of the profibrotic transcription factor SM

218 iting IFN-induced phosphorylation or nuclear translocation of the STAT1 and STAT2 transcription facto

219 interacts with phospholipids, leading to the translocation of the TRAF2 complex to lipid rafts, resul

220 rough a conserved pathway leading to nuclear translocation of the transcriptional effector Yki/Yap/Ta

221 ion by regulating the nuclear to cytoplasmic translocation of their effector, WDR26, via the shuttlin

222 rocess occurs during the internalization and translocation of these nanoparticles (e.g., foliar and r

223 The nuclear translocation of these transcription factors was shown t

224 focal adhesion kinase signaling and nuclear translocation of transcriptional coactivator TAZ, inhibi

225 and to what extent they are involved in the translocation of transfer RNA (mt-tRNA) is unclear.

226 st TNT1 may restrain the uniform, regulatory translocation of tropomyosin.

227 Additional factors, including nuclear translocation of UBQLN2, may facilitate its action to cl

228 This process involves translocation of viperin to the mitochondrion, where it

229 e European countries, in which international translocation of virus is driven by observed commuting a

230 interacting with and regulating the nuclear translocation of XBP-1s, a transcription factor essentia

231 of these cells with Ab W6/32 induced marked translocation of YAP to the nucleus.

232 st-transcriptional modifications and nuclear translocation of YAP1 are crucial for its nuclear activi

233 tion rescue, which rely on ATP-dependent Mfd translocation on DNA.

234 Moreover, when endosome translocation or exocytosis was inhibited by depletion o

235 (deletion 17p, TP53, and ATM SNVs), and MYC (translocations or copy number variations) were all indep

236 that DSBs are a primary source of chromosome translocations or deletions, making them a major cause o

237 ditionally, protein was investigated for its translocation over the intestinal epithelial barrier, wh

238 ory peptide (XIP), to move toward the Ca(2+) translocation pathway to interact with TM2a in an inward

239 osteric conformational changes in the Ca(2+) translocation pathway via the XIP, resulting in a rearra

240 blocks the transmembrane-spanning sodium ion translocation pathway, providing a molecular mechanism f

241 cally crucial elements and constitute proton-translocation pathways through the membrane.

242 metric, revealing probable proton and sodium translocation pathways.

243 ple species and subspecies with a stochastic translocation pattern into the bloodstream.

244 tes mechanical force to overcome barriers to translocation posed by structured substrate proteins is

245 lt(Ph) that limits the rate of the substrate translocation process.

246 proteolysis (RIP) and regulated alternative translocation (RAT).

247 uence: (i) the phage T4 motor exhibits large translocation rate fluctuations and pauses and slips; (i

248 results in a 5- to 10-fold reduction of the translocation rate.

249 TFE3 Xp11.2 translocation renal cell carcinoma (TFE3-RCC) generally

250 targeted mouse line expressing an ERK-kinase translocation reporter (KTR) that enables live quantific

251 hich specifically regulate and implement DNA translocation, respectively.

252 biochemical level, how tumor-initiating ETS translocations result in reprogramming of the AR cistrom

253 s, MOCS1A and MOCS1B, which follow different translocation routes before mitochondrial matrix import

254 he control NPCs, high-throughput genome-wide translocation sequencing (HTGTS) demonstrates that ASD-d

255 stic leukemia (ALL), the t(1,19) chromosomal translocation specifically targets the E2A gene and prod

256 that moves two residues of the substrate per translocation step have been inferred from these structu

257 henotype, correlating with NF-kappaB nuclear translocation, suggesting a mechanism of tolerance.

258 se factor for OS and hemEFS with DD, whereas translocation t(11;14) was associated with a better hemE

259 The twin-arginine translocation (Tat) pathway transports folded proteins a

260 Ten-eleven-translocation (TET) dioxygenases catalyze the oxidation

261 Here we report that deficiency of ten-eleven translocation (Tet) DNA demethylase family members Tet2

262 5-hydroxymethylcytosine (5hmC) by ten-eleven translocation (TET) enzymes, which is enriched in brain.

263 We hypothesized that ten-eleven translocation (TET) enzymes, which oxidize 5mC on DNA co

264 Ten-eleven translocation (TET) family enzymes (TET1, TET2, and TET3

265 Active DNA demethylation via ten-eleven translocation (TET) family enzymes is essential for epig

266 changes in the gut microbiome and microbial translocation that contribute to inflammation and chroni

267 nted a large panel of 4143 lines for the 2NS translocation that provided excellent insights into its

268 e myeloma (MM) patients exhibiting the 11;14 translocation, the mechanistic basis of which is unknown

269 igh-throughput genome-wide sequencing of DNA translocations, this is achieved while circumventing mos

270 FFSS signaling drives class IIa HDAC nuclear translocation through a signaling pathway involving dire

271 stages of protein secretion: (1) SecA-driven translocation through SecYEG and (2) communication of co

272 Accordingly, differences in nanopore translocation times and distributions may be used to inf

273 (tRNA) species based on the associated pore translocation times, ion-current noise, and blockage cur

274 ion and induced sequestosome 1 (SQSTM1, p62) translocation to damaged mitochondria.

275 ession, and thereby advocate targeting PD-L1 translocation to enhance the efficacy of PD-1/PD-L1 bloc

276 he intestinal epithelial barrier, and venous translocation to organs.

277 al transition (EMT) and beta-catenin nuclear translocation to promote cell migration and invasion.

278 n increases gonadotrope GLUT1 expression and translocation to the extracellular membrane.

279 hage adsorption occurs but that phage genome translocation to the host's cytoplasm is defective.

280 RAC1 potentiated ORAI1 translocation to the leading edge, increasing the availa

281 phosphatidate phosphatase, required for its translocation to the nuclear/endoplasmic reticulum membr

282 hosphorylation of the kinase, which enhances translocation to the nucleus and boosts MAPK signaling i

283 ntails betacatenin protein stabilization and translocation to the nucleus to regulate context-specifi

284 lusion of FoxO1 and concomitant beta-catenin translocation to the nucleus, collectively leading to cM

285 erties to hSFs, reversed by inhibiting NF-kB translocation to the nucleus.

286 associated with increased transcription and translocation to the plasma membrane of TLR4 in donor TR

287 ule is required for insulin-stimulated GLUT4 translocation to the PM, although where it intersects GL

288 ER)-plasma membrane (PM) junctions and STIM1 translocation to these junctions.

289 he SCS, and for their subsequent directional translocation towards the T cell zone.

290 tal duplications, inversions, deletions, and translocations using linked-read sequencing data.

291 o characterize the response of the ETV1 (ETS translocation variant 1) signaling axis in the LA during

292 rand DNA binding protein did not affect PcrA translocation velocity but slightly increased its proces

293 iverse cellular processes, including protein translocation, vesicle trafficking, and apoptosis.

294 last index of lines with and without the 2NS translocation was 2.7 +/- 4.5 and 53.3 +/- 15.9, respect

295 However, no evidence of reducing microbial translocation was observed.

296 tion of the GI tract and increased microbial translocation, we find inflammatory cytokines (e.g., int

297 LCLs are associated with the t(2;5)(p23;q35) translocation which fuses the Anaplastic Lymphoma Kinase

298 with reduced expression of TET2 (ten-eleven translocation), which promotes DNA demethylation by oxid

299 rd activates TFEB via promoting TFEB nuclear translocation, while bile acid-induced fibroblast growth

300 copy number variations and interchromosomal translocations within Hi-C data with breakpoints at sing