How to use in-sentence of “rna”:
+ Some non-coding DNA is Transcription transcribed into functional non-coding RNA molecules.
+ Kornberg for creating detailed molecular images of RNA polymerase during various stages of the transcription process.
+ It is any nucleotide sequence within a gene that is removed by RNA splicing to get the final RNA product of a gene.
+ Promoters contain specific DNA sequences which give the RNA polymerase a place to bind.
+ Other biocatalysts are catalytic RNA molecules, called ribozymes.
Example sentences of “rna”:
+ The snRNA component of the snurp is specific to individual introns because it ‘recognises’ ‘recognition’ in DNA and RNA is when a sequence on one molecule fits a complementary sequence on another molecule.
+ They also take part in RNA splicing, viral replication, and transfer RNA biosynthesis.
+ With the help of some other molecules, it makes messenger RNA from a strand of a DNA.
+ It is made up of dense RNA and proteins.
+ The study of RNA and proteins is more complex.
+ Retrotransposons copy themselves in two stages: first from DNA to RNA by Transcription transcription, then from RNA back to DNA by reverse transcription.
+ The RNA component, in isolation, was enough for the observed catalytic activity of the enzyme.
+ DNA and RNA make copies of themselves, but only if there is a catalyst — a compound which speeds up the chemical reaction.
+ The main mechanism is called RNA splicing.
+ A reverse transcriptase is an enzyme which works ‘backwards’ from RNA to DNA.
+ Alone or with other proteins, they promote or block RNA polymerase.
+ In the 1970s, Cech discovered that an unprocessed RNA molecule could splice itself.
+ A virus has either RNA or DNA genes and is called an RNA virus or a DNA virus respectively.
+ Nidoviruses are enveloped positive-sense single-stranded RNA viruses.
+ Transfer RNA is a short molecule of about 80 nucleotides which carries a specific amino acid to the polypeptide chain at a ribosome.
+ A ribozyme is an RNA molecule that can help certain biochemical reactions.
+ These small RNAs bind to normal messenger RNA molecules and increase or decrease their activity.
+ This led to the RNA world hypothesis, in which RNA acts in the evolution of prebiotic self-replicating systems.
+ These differences result in RNA being chemically more reactive than DNA.
+ Potent and specific genetic interference by double-stranded RNA in “Caenorhabditis elegans.” “Nature.” 391 806-811 The paper reports that tiny snippets of double-stranded RNA with sequences matching the dsRNA.
+ The snRNA component of the snurp is specific to individual introns because it 'recognises' 'recognition' in DNA and RNA is when a sequence on one molecule fits a complementary sequence on another molecule.
+ They also take part in RNA splicing, viral replication, and transfer RNA biosynthesis.
+ With the help of some other molecules, it makes messenger RNA from a strand of a DNA.
More in-sentence examples of “rna”:
+ Those with DNA genomes use an RNA intermediate during genome replication.
+ These tests are called HCV antibody, ELISA, Western blot, and quantitative HCV RNA tests.
+ Further, all 5 nucleotides that make up the sequence of the genetic code in DNA and RNA are aromatic purines or pyrimidines.
+ Those with DNA genomes use an RNA intermediate during genome replication.
+ These tests are called HCV antibody, ELISA, Western blot, and quantitative HCV RNA tests.
+ Further, all 5 nucleotides that make up the sequence of the genetic code in DNA and RNA are aromatic purines or pyrimidines.
+ After long effort, Kornberg was able to use X-ray crystallography to take 3D pictures of RNA molecules, lipids and proteins.
+ If RNA was the first genetic material, then minerals containing boron and molybdenum could assist in its formation.
+ Cryptic genetic variation promotes rapid evolutionary adaptation in an RNA enzyme.
+ Other scientists have developed vaccines that use messenger RNA to teach the body to recognize the virus.
+ A ribosome is a mixture of protein and RNA that starts being made in the nucleolus of a cell.
+ Most codons in messenger RNA correspond to the addition of an amino acid to a growing polypeptide chain, which may ultimately become a protein.
+ Viral genomes, which are usually RNA, take over the cell machinery and make both new viral RNA and the protein coat of the virus.
+ Like most viruses, rotaviruses are made from RNA and protein.
+ He was also the originator of the RNA world hypothesis in 1977, although not by that name.
+ Structural and energetic analysis of RNA recognition by a universally conserved protein from the signal recognition particle.
+ A genome is all the genes in an living thing and the other pieces of DNA and RNA that help them work.
+ The control of alternative RNA splicing is performed by complex network of signalling molecules.
+ This is done by translation translation and RNA splicing which produces messenger RNAs.
+ The most important molecules in cell biology are DNA, RNA and proteins.
+ All RNA viruses use their own RNA replicase enzymes to create copies of their genomes.
+ Viruses that are not RNA viruses use DNA for their genome and are called DNA viruses.
+ This strand is called the “template strand”, because it provides the template for ordering the sequence of nucleotides in an RNA transcript.
+ Fire was given the 2006 Nobel Prize in Physiology or Medicine for the discovery of RNA interference.
+ These include genes for functional RNA molecules and DNA sequences such as “start replication” signals, centromeres, and telomeres.
+ The other line led to all modern cellular RNA polymerases.
+ This is called messenger RNA and it gives the amino acid sequence for protein production.
+ It is an RNA vaccine made of nucleoside-modified Messenger RNAmRNA which is meant to create spike protein of SARS-CoV-2.
+ This is because viral RNA polymerases lack the proof-reading ability of DNA polymerases.
+ A DNA construct is often used in molecular biology to analyze macromolecules such as proteins or RNA in more detail.
+ Genes encoded in DNA are transcription by proteins such as RNA polymerase.
+ It researches drugs based on messenger RNA for use as individualized cancer immunotherapies, as vaccines against infectious diseases and as protein replacement therapies for rare diseases.
+ PMID 9486653 The paper reports that tiny snippets of double-stranded RNA with sequences matching the dsRNA.
+ In 1997 Sharp and Roberts independently found out that genes were split into segments that were combined later in RNA processing.
+ Transcription is when RNA is made from DNA.
+ Biologists made this group based on RNA sequence analysis.
+ Another RNA molecule uses this as a set of instructions for making the protein.
+ This messenger RNA is then used to produce a correct protein by translation.
+ The role of general initiation factors in transcription by RNA polymerase II journal = Trends Biochem.
+ RNase P means “ribonuclease particle”, which is a type of enzyme built of an RNA part and a protein part.
+ Transcription makes an RNA copy of part of the DNA.
+ Nucleic acids, such as DNA and RNA contain the genetic code.
+ Messenger RNA vaccines need to be stored at very cold temperatures.
+ Structural basis of transcription: an RNA polymerase II – TFIIB cocrystal at 4.5 angstroms.
+ The function of RNA is much more difficult to explain.
+ This format has the advantage of selecting for properties in a cellular environment, which is useful when the evolved protein or RNA is to be used in living organisms.
+ It does this by moving along a strand of RNA and building a protein based on the code it reads.
+ It is a single stranded RNA virus which infects many plants, especially tobacco and other members of the family Solanaceae.
+ Telomerases carry their own RNA molecule, which is used as a template to elongate the telomeres.
+ Redefining the invertebrate RNA virosphere.