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an abilityto influencetranscription factors
of two subunits : c - fos and c - jun(passive) is composedAP-1 transcription factor
Discovery and characterization of RUNX1 Nusslein - Volhard and Wieschausdiscoveredthe transcription factor RUNX
Rel family of genes(passive) is composedThe transcription factor
Antioxidant responsive element , Quinone reductase , Oxidative stresscontributesThe Nrf2 transcription factor
UW researchers ( gray and red(passive) designed bya transcription factor
microRNA and RNAi Cell signalingcan triggertranscription factors
forms a complex with HIF-1βcreatingHIF-1 transcription factor
Activated MAPK can enter the nucleusto triggertranscription factors
McMahon , M. , Itoh , K. , Yamamoto , M. & Hayes , J. D. Keap1-dependent proteasomal degradation ofcontributestranscription factor Nrf2
Calcineurin inhibitors , including FK506 , serveto preventtranscription of the autocrine factor
to regulate the expression of genes coding for 5S RNA(passive) was discoveredThe transcription factor
Ca2 + -mediated calcineurin activity ( 81 , 124(passive) triggered bya transcription factor
of five open reading frames ( ORFs ) that contains genes that respond to biotin - mediated feedback repression(passive) is composedThe transcription factor
as a way neurons activity could change its structure Signal passing between post and pre synaptic neurons= nitric oxide(passive) were discovered Transcription factor
of an alpha subunit , encoded by the RUNX1 , RUNX2 , and RUNX3 genes , which binds to DNA via a Runt domain , and a beta subunit , encoded by the CBFB gene ( ) , which increases the affinity of the alpha subunit for(passive) are composedRUNX transcription factors
of proteins , which are coded for in our(passive) are composedTranscription factors
the nucleotide sequence variations of the HLA - DR promoter(passive) influenced bytranscription factors
of two essential functional regions : a DNA - binding domain and an activator domain(passive) are composedTranscription factors
a transcriptional regulatory axis ,composedof transcription factor
of two modules : the DNA‐binding domain and the transcription activation domain(passive) are generally composedTranscription factors
in prostate cancer(passive) were discoveredtranscription factors
Urnov , F.D. and Rebar , E.J. ( 2002Designedtranscription factors
of at least four discrete domains : a DNA - binding domain , a nuclear - localization signal , a transcription - activation domain , and an oligomerization site(passive) are usually composedTranscription factors
of more than one polypeptide(passive) can be composedTranscription factors
the transversion(passive) created bytranscription factors
epigenetic mechanisms(passive) are triggered byTranscription factors
to target DNA sequences contained within the DNase I - hypersensitive regions [ 10(passive) were designedZFP ) transcription factors
of several functional domains , one of which must be a DNA - binding domain(passive) may be composedTranscription factors
of distinct functional modules(passive) are composedTranscription factors
a specific DNA sequencehas createdZFP transcription factors
Takahashi in 2006(passive) discovered bypluripotent transcription factors
The kinase activity of both AKT and SGK1 toward the forkhead box protein O1 ( FOXO1 ) andcausestranscription factors
reactive species and proinflammmatory(passive) are ... influenced byTranscription factors
The first oneis designingtranscription factors
gene fusions as the result of chromosomal translocations(passive) created byUSA.AbstractChimeric transcription factors
CDK8influencetranscription factors
upon transfer of Arabidopsis(passive) is triggeredtranscription factors
hypoxia in advanced bulky HCC tumors(passive) triggered bya transcription factor
post - translational modification , expression levels , and protein stability ... knownto influencetranscription factor activity
to the regulation of ABA homeostasis and drought stress tolerance in Arabidopsis thaliana 12contributesto the regulation of ABA homeostasis and drought stress tolerance in Arabidopsis thaliana 12
the DNA to loop so that the regulatory sequence ( and bound transcription factor ) become close to the RNA polymerase binding site.[25causethe DNA to loop so that the regulatory sequence ( and bound transcription factor ) become close to the RNA polymerase binding site.[25
the DNA to loop so that the regulatory sequence ( and bound transcription factor ) become close to the RNA polymerase binding site.[33causethe DNA to loop so that the regulatory sequence ( and bound transcription factor ) become close to the RNA polymerase binding site.[33
the DNA to loop so that the regulatory sequence ( and bound transcription factor ) become close to the RNA polymerase binding site.[62causethe DNA to loop so that the regulatory sequence ( and bound transcription factor ) become close to the RNA polymerase binding site.[62
to the regulation of ABA homeostasis and drought stress tolerance in Arabidopsis thaliana Moritz , Thomascontributesto the regulation of ABA homeostasis and drought stress tolerance in Arabidopsis thaliana Moritz , Thomas
to cell differentiation and proliferationleadsto cell differentiation and proliferation
to cellular proliferation or differentiation ( 30leadingto cellular proliferation or differentiation ( 30
changes in gene regulationcausingchanges in gene regulation
CD4 + T cell differentiationcould influenceCD4 + T cell differentiation
neural stem / progenitor cell differentiation and maturation in vivoinfluencesneural stem / progenitor cell differentiation and maturation in vivo
dramatic changes in gene expressioncan triggerdramatic changes in gene expression
cell cycle and proliferationinfluencescell cycle and proliferation
to the expression of a gene [ 9leadingto the expression of a gene [ 9
of HIF-1α and HIF-1β subunitscomposedof HIF-1α and HIF-1β subunits
neuronal differentiationinfluenceneuronal differentiation
in altered gene expression and therefore cell proliferationresultingin altered gene expression and therefore cell proliferation
to changes in gene expression < ref namewill leadto changes in gene expression < ref name
cancer through coordinated changes in gene expressioncausecancer through coordinated changes in gene expression
to changes in gene expression and enzyme activitiesleadingto changes in gene expression and enzyme activities
to cell proliferation ( regenerationleadingto cell proliferation ( regeneration
to the induction of GLT-1 expression in astrocytes through an interaction with a distal enhancer elementcontributesto the induction of GLT-1 expression in astrocytes through an interaction with a distal enhancer element
to the expression of the gene products ( growth , angiogenesis , proliferationleadsto the expression of the gene products ( growth , angiogenesis , proliferation
to activation of the genes involved in cell proliferationleadsto activation of the genes involved in cell proliferation
to cell cycle arrest and apoptosisleadingto cell cycle arrest and apoptosis
to changes in gene expression after TGF - β1 treatmentleadto changes in gene expression after TGF - β1 treatment
reprogramming of cardiac gene expressiontriggerreprogramming of cardiac gene expression
to silencing of specific gene expression.[9leadingto silencing of specific gene expression.[9
to silencing of specific gene expression.[5leadingto silencing of specific gene expression.[5
to altered gene expression ( 2leadingto altered gene expression ( 2
to the expression of genes involved in growth and differentiation.65leadsto the expression of genes involved in growth and differentiation.65
to both embryonic and adult neurogenesis as a multifunctional regulatorcontributesto both embryonic and adult neurogenesis as a multifunctional regulator
to improved cell survival and protein synthesisleadto improved cell survival and protein synthesis
Th2 and Th17 differentiation and inflammationinfluenceTh2 and Th17 differentiation and inflammation
to activation or silencing of genes important in cell differentiation and maintenanceleadingto activation or silencing of genes important in cell differentiation and maintenance
to cell proliferation [ 9–11leadingto cell proliferation [ 9–11
the expression of some genes[2causingthe expression of some genes[2
cell type differentiation andinfluencingcell type differentiation and
to the generation of retinal cell typeleadingto the generation of retinal cell type
to changes in gene expression.[http://www.youtube.com /will leadto changes in gene expression.[http://www.youtube.com /
osteoblast differentiation ( Runx2 and Sp7triggeringosteoblast differentiation ( Runx2 and Sp7