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by the synthesis of heat shock proteins by an organism as a result of exposure to increased temperatures or other stress(passive) caused bytranscription and translation activity
the strand orientation and the exact position of a G - quadruplex sequenceinfluenceits effect on transcription and translation
the movement of RNA polymerasecausedtranscription abortion[5
RNA polymerasecausedtranscription abortion[5].
by the synthesis of heat shock proteins(passive) caused bytranscription and translation activity
by the novel leader regulatory element(passive) caused byThe reduction of transcription and translation
genomic or non - genomic effects.[3influencesgene transcription and translation
the abilityto influenceDNA transcription and translation
The full mutation leads to methylation of the genecausinga lack of transcription and translation
The genomicinfluencesgene transcription and translation
p)ppGppcan ... influencegene transcription and translation
key sequences ( known and putatively novel ) of promoter and untranslated regionsinfluencetranscription and translation efficiency
an important role in signalling ... ableto influencetranscription and translation [ 30,36
other clock - related proteinsinfluencesthe transcription and translation cycle
a regulatory sequencecausestranscription and/or translation
Other genetic regulation mechanismsinfluencethe actual transcription and translation
DNA mutation within any genecan leadto altered transcription and translation
multiple mechanismsinfluencingtranscription and translation miRNAs
How closely bound together the nucleosomes arewill influencetranscription and gene expression
Acute exposure of WT mice to hypoxia triggers HIF stabilizationresultingin Epo transcription and translation
translation of the leader peptideresultsin coupled transcription and translation
external stimuliinfluencetranscription and processing
potential rate - limiting stepscontributeto modulating transcription and translation
interactions on DNAleadto transcription and translation
the proteinresultsfrom transcription and translation
epigenetic factorsinfluencingtranscription and translation
regulatory regionspotentially influencingtranscription and translation
proteinsinfluencetranscription , translation
Changes at the nucleotide level go onto influencethe transcription and translation
molecular interactionscausetranslation and transcription
1leadingto their transcription and translation
Signal transduction pathwaysleadto translation and transcription
pathwaysleadingto transcription and translation
Repeat expansion is knownto influenceboth transcription and translation
the reaction eventsleadingto transcription and translation
are thoughtto influencetranscription and translation
both human and machine error(passive) can be caused byTranscription and transposition snafus
bind cell surface receptors coupled to cascades of molecular interactionscausetranslation and transcription
by the environment surrounding the forming protein(passive) are influenced byTranscription and translation
have been proposedto influencetranscription or translation
error in gene expressioncan causeerror in gene expression
in cell deathresultingin cell death
in the production of specific proteinsresultingin the production of specific proteins
in more mutationswill resultin more mutations
cellular responsescausecellular responses
e DNA structure(passive) are designede DNA structure
in impaired protein synthesis and determination of cell functionresultingin impaired protein synthesis and determination of cell function
to decreased tumorigenesisleadingto decreased tumorigenesis
in production of viral proteins , including more Tatthen resultsin production of viral proteins , including more Tat
to inhibition of protein synthesisleadingto inhibition of protein synthesis
to the viral pathogenesiscontributesto the viral pathogenesis
to this rise in subunits in bodies and dendritesdifferentially contributeto this rise in subunits in bodies and dendrites
to variability in gene expressioncontributeto variability in gene expression
to the production of a gene productleadingto the production of a gene product
to production of a proteinleadingto production of a protein
to protein expressioncontributeto protein expression
to the synthesis of functional activeleadingto the synthesis of functional active
within an in vivo modelresultswithin an in vivo model
in gene expressionresultin gene expression
in cell deathresultingin cell death
to protein synthesisleadingto protein synthesis
to cell - to - cell variations in mRNA and protein levelsleadingto cell - to - cell variations in mRNA and protein levels
of multiple reactionsbeing composedof multiple reactions
in a polypeptide of the desired sequencewould resultin a polypeptide of the desired sequence
The central dogma(passive) is composedThe central dogma
usuallyleadingusually
The systems inherent time delays(passive) caused byThe systems inherent time delays
significantly to reducing the cell 's viabilitycontributessignificantly to reducing the cell 's viability
to the control of LAerR vs. SAerR.contributedto the control of LAerR vs. SAerR.
translational fatecan influencetranslational fate
to the persistent activation of CDC25C , a key protein for G2 / M transition and mitotic entryleadsto the persistent activation of CDC25C , a key protein for G2 / M transition and mitotic entry
in the production of several transcripts from each generesultingin the production of several transcripts from each gene
in tissue - specific RNA synthesisresultingin tissue - specific RNA synthesis
in the production of the protein encoded by the mRNAresultingin the production of the protein encoded by the mRNA
to the production of RNA which is then involved in translationleadsto the production of RNA which is then involved in translation
to translation with no intermediate processing , which allows several genes to be encoded in a single transcriptional unit ( a polycistronleadsto translation with no intermediate processing , which allows several genes to be encoded in a single transcriptional unit ( a polycistron
to the synthesis of regulatory proteinsleadingto the synthesis of regulatory proteins
to the R - loop or other higher order DNA structures containing single - strand regions of DNAleadingto the R - loop or other higher order DNA structures containing single - strand regions of DNA
in the production of an mRNA moleculewill resultin the production of an mRNA molecule
to the production of proteinsleadsto the production of proteins