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Howard Temin at the University of Wisconsin – Madison in a cancer virus(passive) was discovered byReverse transcriptase
Howard Temin at the University of Wisconsin – Madison in RSV virions,[2(passive) was discovered byReverse transcriptase
David Baltimore and Howard Temin in retroviruses(passive) discovered byreverse transcriptase
That idea ... Howard Temin ,discoveredreverse transcriptase
Howard Temin and Baltimore(passive) was discovered byReverse Transcriptase
Howard Temin at the University of Well(passive) was discovered byReverse transcriptase
Baltimore and American oncologist Howard Teminhad ... discoveredreverse transcriptase
forces ... Howard Temin and David Baltimorediscoveredreverse transcriptase
where in 1970 he helpeddiscoverreverse transcriptase
Two American virologists , Howard Temin ( 1934–1994 ) and David Baltimore ( 1938discoveredreverse transcriptase
their replication ... these experimentsdiscoveredreverse transcriptase
H. Temin and D. Baltimorediscoveredreverse transcriptase
independently Baltimore and Temindiscoveredreverse transcriptase
David Baltimore at the Massachusetts Institute of Technology , working independently of Temin and Dulbeccoalso discoveredreverse transcriptase
for reverse transcription of RNA(passive) is specially designedOmniscript Reverse Transcriptase
specially(passive) is ... designedOmniscript Reverse Transcriptase
in Rous sarcoma virus , another retrovirus(passive) was discoveredReverse transcriptase
the double stranded DNAresultsfrom reverse transcriptase
originally(passive) was ... discoveredReverse transcriptase
a catalytic subunit ( TERT ) and a RNA matrix ( TERC(passive) composed bya reverse transcriptase
This effect ... in whichpreventsreverse transcriptase
The proviral DNAresultingfrom reverse transcriptase
File Browser есть возможность присвоить каждому изображению определенную категориюhad ... discoveredreverse transcriptase
Abacavirpreventsreverse transcriptase
Ectopic expression of a COOH - terminal fragment of the human telomeraseleadsreverse transcriptase
These two medicationspreventreverse transcriptase
Bergdiscoveredreverse transcriptase
5-mL tube and extractedhad ... discoveredreverse transcriptase
a cDNA extension reactionresultingfrom reverse transcriptase
upon expulsion of the core(passive) is triggeredReverse transcriptase
David Baltimore at MIT(passive) independently discovered byreverse transcriptase
of two coiled chains of amino acids , the same building blocks found in egg whites , milk , blood and meat(passive) is composedReverse transcriptase
The unfair question was simplydiscoveredreverse transcriptase
restriction endonucleases , David Baltimorediscoveredreverse transcriptase
more than a decadediscoveredreverse transcriptase
Inflammation ... nobel lauratediscoveredreverse transcriptase
double - stranded DNA from an RNA templatecreatesdouble - stranded DNA from an RNA template
single - stranded DNA from an RNA template ( linkcreatessingle - stranded DNA from an RNA template ( link
a complementary DNA copy of the target RNAcreatesa complementary DNA copy of the target RNA
in inhibition of enzyme function , chain termination , and inhibition of viral replicationresultingin inhibition of enzyme function , chain termination , and inhibition of viral replication
a double stranded DNA moleculecreatinga double stranded DNA molecule
cDNA from the RNA samplecreatescDNA from the RNA sample
DNA from RNA , which is then incorporated into the hostcreatesDNA from RNA , which is then incorporated into the host
HIV from creating DNA from its RNAto preventHIV from creating DNA from its RNA
gene activation and lead to the malignant phenotype [ 2can causegene activation and lead to the malignant phenotype [ 2
gene activation and lead to the malignant phenotype [ 18can causegene activation and lead to the malignant phenotype [ 18
DNA from RNA -plus - strange RNAto createDNA from RNA -plus - strange RNA
a double stranded DNA version of the virus ( ex HIVcreatesa double stranded DNA version of the virus ( ex HIV
the DNA template(passive) created bythe DNA template
viral DNAcreatesviral DNA
the formation of DNA fromwill causethe formation of DNA from
the synthesis of cDNA from the RNA possibly present in the test sampleto leadthe synthesis of cDNA from the RNA possibly present in the test sample
of a protein component and an RNA ( complementary to the telomeric single- stranded overhangcomposedof a protein component and an RNA ( complementary to the telomeric single- stranded overhang
another DNA strand ... resulting in a double - stranded DNA with a functional promoter at one endcreatesanother DNA strand ... resulting in a double - stranded DNA with a functional promoter at one end
the enzyme from synthesizing cDNApreventingthe enzyme from synthesizing cDNA
to generate specific cDNAis ... designedto generate specific cDNA
a DNA copy ( cDNA ) of the target nucleic acidcreatesa DNA copy ( cDNA ) of the target nucleic acid
the virus from duplicating its DNApreventsthe virus from duplicating its DNA
DNA from purified mRNAcreatesDNA from purified mRNA
The new DNA instructions(passive) are created byThe new DNA instructions
DNA from it 's RNAto createDNA from it 's RNA
a DNA copy of the rRNA targetcreatesa DNA copy of the rRNA target
to RNA dependent DNA replicationleadingto RNA dependent DNA replication
cDNA by initiating at the poly - A tail of the transcript andcreatescDNA by initiating at the poly - A tail of the transcript and
in premature ending of the DNA chain elongationresultingin premature ending of the DNA chain elongation
DNA copies of HIV 's RNAhelps createDNA copies of HIV 's RNA
in a block in cDNA synthesis ( Mitsuya and Broder , 1987resultingin a block in cDNA synthesis ( Mitsuya and Broder , 1987
a single - stranded cDNA from the total RNA of 1/10to createa single - stranded cDNA from the total RNA of 1/10
base mispairing and introduce mutations that decrease viral fitnesscan causebase mispairing and introduce mutations that decrease viral fitness
to enable efficient synthesis of first - strand cDNA in preparation for PCR amplificationdesignedto enable efficient synthesis of first - strand cDNA in preparation for PCR amplification
a cDNA copy of the target RNA ... while RNase H activity degrades the target RNAcreatesa cDNA copy of the target RNA ... while RNase H activity degrades the target RNA
in a complementary DNA molecule that can then be measured as described above ... termed real - time ( RT - PCRresultsin a complementary DNA molecule that can then be measured as described above ... termed real - time ( RT - PCR
a DNA copy of the HIV-1 RNA genome , which is then inserted into the host genome and used to create progeny virionscreatesa DNA copy of the HIV-1 RNA genome , which is then inserted into the host genome and used to create progeny virions
a SINE - like 5S rRNA retropseudogene Molecular and General Genomics 271:98createda SINE - like 5S rRNA retropseudogene Molecular and General Genomics 271:98
the retrotranspositionleadsthe retrotransposition
for all reverse transcription with any amount of RNA from 50 ng to 2 mg / reactiondesignedfor all reverse transcription with any amount of RNA from 50 ng to 2 mg / reaction