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Friedrich Miescher in 1869.[3(passive) were discovered byNucleic acids
Friedrich Miescher in 1869.[1(passive) were discovered byNucleic acids
Nucleotides monomerscomposenucleic acids
Friedrich Miescher in 1871.[1(passive) were first discovered byNucleic acids
of long strands of monomers called nucleotides(passive) are composedNucleic acids
Friedrich Miescher in 1869 ( from nuclei of pus cells(passive) discovered byNucleic acids
friedrich miescher , a swiss biochemist(passive) were discovered byNucleic acids
Julian Friedrich Miescher born1844discoverednucleic acids
a great deal ... Friedrich Miescherdiscoverednucleic acids
Timeline A. Johann Friedrich Miescherdiscoverednucleic acids
Friedrich Miescher ... a Swiss biologistdiscoverednucleic acid
Friedrich Miescher in 1871.Artificial nucleic acids(passive) were ... discovered byNucleic acids
The Swiss physiologist Friedrich Miescher ( 1844 - 1895discoverednucleic acids
DNA Scientist Johann Friedrich Miescherdiscoverednucleic acid
Swiss biochemist Johann Friedrich Miescherdiscoverednucleic acid
1869 Miescherdiscoversnucleic acids
of nucleotide Nucleotides(passive) are composedNucleic acids
Johann Friedrich Miescher ( 1844 - 1895 ) , a Swiss biochemistdiscoverednucleic acids
of individual nucleotides(passive) are composedNucleic acids
from a set of nucleotides(passive) are createdNucleic acids
of monomer nucleotides(passive) are composedNucleic acids
4 nucleotidescomposingthe nucleic acid
the story of Johann Friedrich Miescher ( 1844–1895 ) , the Swiss researcherdiscoverednucleic acids
of monomers that are naturally occurring nucleotides ( such as deoxyribonucleotides and ribonucleotides ) , analogs of naturally occurring nucleotides ( e.g. , α - enantiomeric forms of naturally - occurring nucleotides ) , or a combination of both(passive) may be composedNucleic acids
the poets Friedrich Hölderlin , Eduard Mörike and Ludwig Uhland , the neurologist Alois Alzheimer from whom Alzheimer 's disease takes its name , Friedrich Miescher who was the firstto discovernucleic acids
German biochemist Johann Friedrich Miescher ( 1844–95discoversnucleic acid
of subunits called nucleotides(passive) are createdNucleic acids
of a chain of nucleotides , which are linked by phosphodiester bonds(passive) is composedNucleic acid
Viron complete , fully developed infectious viral particlecomposedof nucleic acid
of long chains of nucleotides 4(passive) are composedNucleic acids
of long chains of repeating units called nucleotides(passive) are composedNucleic acids
of a chain of nucleotides which has a backbone made up of sugar and bases(passive) are composedNucleic acids
BackgroundMuch of DNA metabolism ... the linear sequence of nucleotidescomposethe nucleic acid
Friedrich Miescher i ...... Central Dogma of Molecular Biology Total views ( 353(passive) were first discovered byNucleic acids
only four nucleotides offers(passive) are created bynucleic acids
that typically DNA nucleotidescomposedof dioxin nucleic acid
These two final nucleotidespreventthe nucleic acid
Friedrich Miescher in 1868 who called the material as ‘ nuclein ’ as it was found in the nucleus and this led to the discovery of RNA(passive) were ... discovered byNucleic acids
such that it is complementary to the entire coding region of a target mRNA(passive) can be designedantisense nucleic acid
of a long polymer of individual molecules called nucleotides(passive) is composedNucleic acid
forth in SEQ ID NO:49setforth in SEQ ID NO:49
forth in SEQ ID NO:5setforth in SEQ ID NO:5
forth in SEQ ID NO:23 and which is active in trichomessetforth in SEQ ID NO:23 and which is active in trichomes
DNA mutationscausingDNA mutations
to mimic DNAare designedto mimic DNA
to the discovery of DNAledto the discovery of DNA
forth in SEQ ID NO:1 , wherein all or part of the isolated nucleic acid fragmentsetforth in SEQ ID NO:1 , wherein all or part of the isolated nucleic acid fragment
forth in SEQ ID NO:9 , 10 , 11 , 13 , 14 or 15setforth in SEQ ID NO:9 , 10 , 11 , 13 , 14 or 15
forth in SEQ ID NO:1 , wherein all or a part of the isolated second nucleic acid fragmentsetforth in SEQ ID NO:1 , wherein all or a part of the isolated second nucleic acid fragment
in modified DNA basesresultingin modified DNA bases
in cell - free DNA or RNAresultingin cell - free DNA or RNA
of synthetic DNA and RNA oligonucleotidescomposedof synthetic DNA and RNA oligonucleotides
of two chains of nucleotides in which the sugar is deoxyribose and the bases are adenine , cytosine , guanine , and thymine ( compare RNAcomposedof two chains of nucleotides in which the sugar is deoxyribose and the bases are adenine , cytosine , guanine , and thymine ( compare RNA
of two or more nucleotidescomposedof two or more nucleotides
of nucleotides 4composedof nucleotides 4
of many nucleotidescomposedof many nucleotides
of a group of the nucleotidescomposedof a group of the nucleotides
to the formation of the dna double helixleadto the formation of the dna double helix
in protein crosslinking and DNA damageresultingin protein crosslinking and DNA damage
to saturate associations of proteins binding to DNAdesignedto saturate associations of proteins binding to DNA
DNA and RNA breakage in many cellscausingDNA and RNA breakage in many cells
of nucleotide monomers dna nucleotide consists of : • one phosphate groupcomposedof nucleotide monomers dna nucleotide consists of : • one phosphate group
of a polymer of ribonucleotides ( RNA ) or deoxyribonucleotides ( DNAmay be composedof a polymer of ribonucleotides ( RNA ) or deoxyribonucleotides ( DNA
of two polynucleotide strands wound around a central axis to form a double helixcomposedof two polynucleotide strands wound around a central axis to form a double helix
of only 4 nucleotides ( A , C , T and Gare composedof only 4 nucleotides ( A , C , T and G
of 10–50 nucleotides and hybridizes with the DNA of dechlorination bacteria preferentially in a region adjoining the chlorinated ethylene - decomposing geneis composedof 10–50 nucleotides and hybridizes with the DNA of dechlorination bacteria preferentially in a region adjoining the chlorinated ethylene - decomposing gene
of 21-nucleotide DNA and 4-nucleotide RNA , i.e. , 25 nucleotides in totalcomposedof 21-nucleotide DNA and 4-nucleotide RNA , i.e. , 25 nucleotides in total
forth in a DET sequencesetforth in a DET sequence
forth in a sequence listed hereinsetforth in a sequence listed herein
of DNA and peptide nucleic acids ( PNAcomposedof DNA and peptide nucleic acids ( PNA
the three major macromolecules essential for all known forms of life.[1composethe three major macromolecules essential for all known forms of life.[1
from a sample which is analyzed for the presence of � target � ( defined beloworiginatingfrom a sample which is analyzed for the presence of � target � ( defined below
forth in claim 8setforth in claim 8
of a nucleotide sequence complementary to the nucleotide sequence indicated in SEQ IDcomposedof a nucleotide sequence complementary to the nucleotide sequence indicated in SEQ ID
of two strands made up of units called nucleotidescomposedof two strands made up of units called nucleotides
in cell - free DNA ( cfDNA ) or RNA ] in body fluidsresultingin cell - free DNA ( cfDNA ) or RNA ] in body fluids
in DNA damage , cell cycle arrest and apoptosis ( cell deathresultsin DNA damage , cell cycle arrest and apoptosis ( cell death
of poly - nucleotides and each nucleotideis composedof poly - nucleotides and each nucleotide
of about 100 or fewer nucleotidescomposedof about 100 or fewer nucleotides
of a pseudocomplementary PNA ( pcPNA ) specific for a DNA target sequenceare composedof a pseudocomplementary PNA ( pcPNA ) specific for a DNA target sequence