MRNA in a sentence
(1) The length of mRNA varies.
(2) There are different types of mRNA.
(3) The structure of mRNA is important.
(4) Ribosomes use mRNA to make proteins.
(5) The cistron is transcribed into mRNA.
(6) The amount of mRNA in a cell can vary.
(7) The anticodons match with codons on mRNA.
(8) The process of mRNA synthesis is complex.
(9) Errors in mRNA can lead to genetic diseases.
(10) The sequence of mRNA is complementary to DNA.
MRNA sentence
(11) Polycistronic mRNA is often found in bacteria.
(12) The monosome binds to mRNA during translation.
(13) Anticodons are complementary to codons on mRNA.
(14) The anticodon is complementary to the mRNA codon.
(15) Introns can be spliced out of pre-mRNA molecules.
(16) The stability of mRNA influences gene expression.
(17) RNA polymerase is involved in mRNA transcription.
(18) The cdna was transcribed into mRNA in the nucleus.
(19) The codon sequence is transcribed from DNA to mRNA.
(20) Certain genes can produce multiple mRNA transcripts.
MRNA make sentence
(21) The mRNA carries the codon sequence to the ribosome.
(22) The polycistronic mRNA contains multiple stop codons.
(23) The coding DNA sequence is transcribed into pre-mRNA.
(24) The polycistronic mRNA contains multiple start codons.
(25) Messenger RNA is often referred to as the mRNA for short.
(26) The polycistronic mRNA contains multiple coding sequences.
(27) The anticodon region of tRNA pairs with the codon on mRNA.
(28) The chromatoid is thought to be involved in mRNA transport.
(29) The anticodon recognizes and binds to the codon on the mRNA.
(30) Exons can be identified by comparing DNA and mRNA sequences.
Sentence of mrna
(31) Anticodons are involved in the recognition of codons on mRNA.
(32) The ribosome moves along the mRNA molecule during translation.
(33) The microtubular network is involved in the transport of mRNA.
(34) The coding DNA region is transcribed into a pre-mRNA molecule.
(35) The study of mRNA has led to the development of new therapies.
(36) The coding DNA segment is transcribed into mRNA in the nucleus.
(37) The polycistronic mRNA contains multiple ribosome binding sites.
(38) The removal of introns allows for the production of mature mRNA.
(39) The coding DNA region is transcribed into a mature mRNA molecule.
(40) Anticodons are necessary for the translation of mRNA into protein.
MRNA meaningful sentence
(41) The presence of introns can affect the stability of mRNA molecules.
(42) Cytoskeletons play a role in the transport of mRNA within the cell.
(43) The monosome moves along the mRNA strand, reading the genetic code.
(44) The ribosomes move along the mRNA molecule during protein synthesis.
(45) The rRNA molecule contains specific binding sites for tRNA and mRNA.
(46) The coding DNA strand is transcribed into a precursor mRNA molecule.
(47) The discovery of mRNA was a major breakthrough in molecular biology.
(48) The coding DNA sequence is transcribed into a mature mRNA transcript.
(49) Polysomes play a vital role in the translation of mRNA into proteins.
(50) The study of mRNA has led to the identification of novel drug targets.
MRNA sentence examples
(51) The coding DNA strand is transcribed into mRNA during gene expression.
(52) Exons are the coding regions of a gene that are transcribed into mRNA.
(53) Intragenic interactions can influence the stability of mRNA transcripts.
(54) Reverse transcribe the mRNA into cDNA to study gene expression patterns.
(55) The presence of introns can affect the stability and processing of mRNA.
(56) Intron retention of the pre-mRNA can be a mechanism for gene regulation.
(57) The frameshift in the genetic code altered the reading frame of the mRNA.
(58) Alternative splicing of the mRNA can be influenced by genetic variations.
(59) The ribosome is responsible for decoding the genetic information in mRNA.
(60) The stability of mRNA molecules can vary depending on cellular conditions.
Sentence with mrna
(61) The discovery of mRNA has opened up new avenues for personalized medicine.
(62) Polysomes are ribosomes that are bound together by a single mRNA molecule.
(63) The coding DNA region is transcribed into pre-mRNA before being processed.
(64) The first step in the process is to reverse transcribe the mRNA into cDNA.
(65) The removal of introns is an important step in the processing of pre-mRNA.
(66) Scientists are studying the role of mRNA in various diseases and disorders.
(67) The study of mRNA has led to the development of new therapeutic approaches.
(68) Polycistronic mRNA can be translated into proteins with distinct functions.
(69) The biolyses of DNA during transcription allows for the production of mRNA.
(70) The monosome is released from the mRNA after protein synthesis is complete.
Use mrna in a sentence
(71) Intron retention of the pre-mRNA can lead to alternative splicing patterns.
(72) The genetic code is then translated from mRNA to protein during translation.
(73) Polycistronic mRNA can be translated into proteins with different functions.
(74) The size of polysomes can vary depending on the length of the mRNA molecule.
(75) Researchers often reverse transcribe mRNA into cDNA to study specific genes.
(76) The anticodon region of trna base pairs with the corresponding codon on mRNA.
(77) Polysomes are composed of multiple ribosomes bound to a single mRNA molecule.
(78) Polycistronic mRNA is a type of messenger RNA that encodes multiple proteins.
(79) The discovery of mRNA has revolutionized our understanding of gene regulation.
(80) The production of mRNA is tightly regulated to ensure proper cellular function.
Sentence using mrna
(81) Alternative splicing of the mRNA can be influenced by epigenetic modifications.
(82) The mRNA molecule is transcribed from DNA during the process of gene expression.
(83) The stability of mRNA can be influenced by factors such as RNA-binding proteins.
(84) Researchers are studying the mechanisms behind alternative splicing of pre-mRNA.
(85) To analyze gene expression, researchers often reverse transcribe mRNA into cDNA.
(86) Alternative splicing of the mRNA allows for the generation of protein diversity.
(87) Intron retention of the mRNA can result in the production of truncated proteins.
(88) The mechanism of alternative splicing of pre-mRNA is crucial for gene regulation.
(89) The discovery of messenger RNA paved the way for the development of mRNA vaccines.
(90) The degradation of mRNA is an important mechanism for controlling gene expression.
MRNA example sentence
(91) The study of mRNA has revealed insights into the evolution of genetic information.
(92) The discovery of mRNA has provided a foundation for understanding gene expression.
(93) Polysomes are often found associated with mRNA processing bodies in the cytoplasm.
(94) The monosome ensures accurate protein synthesis by proofreading the mRNA sequence.
(95) The stability of mRNA can be influenced by factors such as RNA secondary structure.
(96) The formation of polysomes is influenced by the availability of ribosomes and mRNA.
(97) The sequence of nucleotides in mRNA determines the amino acid sequence of a protein.
(98) The translation of mRNA into protein occurs at cellular structures called ribosomes.
(99) Alternative splicing of mRNA can generate protein variants with distinct properties.
(100) Reverse transcribe the mRNA into cDNA to examine gene expression patterns in detail.
Sentence with word mrna
(101) The wobble hypothesis explains the flexibility of base pairing between tRNA and mRNA.
(102) Antisense RNA molecules can bind to complementary mRNA and inhibit protein synthesis.
(103) Transfecting cells with mRNA can be a useful tool for transient gene expression studies.
(104) The anticodon is involved in the decoding of the genetic information stored in the mRNA.
(105) The polycistronic gene contains multiple coding sequences within a single mRNA molecule.
(106) The degradation of mRNA is an important mechanism for removing unwanted genetic information.
(107) Polycistronic mRNA can be translated into proteins with different subcellular localizations.
(108) The anticodon is located on the tRNA molecule and is complementary to the codon on the mRNA.
(109) Guanines are involved in the recognition and binding of ribosomes to mRNA during translation.
(110) Exon skipping is a phenomenon where certain exons are excluded from the final mRNA transcript.
Sentence of mrna
(111) Researchers often reverse transcribe mRNA into cDNA to study the expression of specific genes.
(112) Alternative splicing of the pre-mRNA can lead to the inclusion or exclusion of specific exons.
(113) The discovery of polycistronic mRNA was a major breakthrough in understanding gene expression.
(114) Alternative splicing can result in different exons being included in the final mRNA transcript.
(115) Intron retention is a type of alternative splicing where the intron is not removed from the mRNA.
(116) Polycistronic mRNA can be translated into different proteins depending on the ribosome binding site.
(117) The presence of a Shine-Dalgarno sequence is important for translation initiation in polycistronic mRNA.
(118) Polysomes are often found associated with specific mRNA molecules involved in important cellular processes.
(119) The lac operon is an example of a polycistronic mRNA, as it contains multiple genes on a single transcript.
(120) The formation of polysomes allows for simultaneous translation of multiple copies of the same mRNA molecule.
(121) The anticodon loop of the tRNA molecule is responsible for recognizing and binding to the codon on the mRNA.
(122) Alternative splicing can result in different combinations of exons being included in the final mRNA transcript.
(123) Ribosomes, which are made up of large and small subunits, are responsible for decoding mRNA and assembling amino acids into proteins.
(124) The exon skipping technique can be used to treat genetic diseases by selectively removing disease-causing exons from the mRNA transcript.
(125) The ribosome is responsible for decoding the sequence of codons in the mRNA and assembling the corresponding amino acids into a protein chain.
MRNA meaning
mRNA, or messenger RNA, is a type of RNA molecule that carries genetic information from DNA to ribosomes, where it is used to synthesize proteins. As a relatively complex scientific term, it can be challenging to use mRNA in a sentence correctly. However, with a few tips and tricks, anyone can learn to use this term effectively.
1. Understand the meaning of mRNA Before attempting to use mRNA in a sentence, it is essential to understand its meaning and function. mRNA is a type of RNA that carries genetic information from DNA to ribosomes, where it is used to synthesize proteins. This means that mRNA plays a crucial role in the process of protein synthesis, which is essential for the functioning of all living organisms.
2. Use mRNA in a scientific context As a scientific term, mRNA is most commonly used in a scientific context. When using mRNA in a sentence, it is essential to ensure that the context is scientific and that the sentence is accurate and precise.
For example, "The mRNA molecule carries genetic information from the DNA to the ribosome, where it is used to synthesize proteins."
3. Use mRNA in a biological context mRNA is also commonly used in a biological context, particularly when discussing genetics and gene expression. When using mRNA in a biological context, it is important to ensure that the sentence is accurate and precise.
For example, "The expression of the gene is regulated by the amount of mRNA that is produced."
4. Use mRNA in a medical context mRNA is also used in a medical context, particularly in the development of vaccines and gene therapies. When using mRNA in a medical context, it is important to ensure that the sentence is accurate and precise.
For example, "The mRNA vaccine works by instructing cells to produce a protein that triggers an immune response."
5. Use mRNA in a general context While mRNA is primarily used in scientific, biological, and medical contexts, it can also be used in a general context. When using mRNA in a general context, it is important to ensure that the sentence is accurate and precise.
For example, "The mRNA molecule is a crucial component of the process of protein synthesis."
In conclusion, using mRNA in a sentence can be challenging, but with a few tips and tricks, anyone can learn to use this term effectively. It is essential to understand the meaning of mRNA, use it in a scientific, biological, or medical context, and ensure that the sentence is accurate and precise. By following these tips, anyone can use mRNA in a sentence with confidence and clarity.
The word usage examples above have been gathered from various sources to reflect current and historical usage of the word MRNA. They do not represent the opinions of TranslateEN.com.