It is possible, and highly probable, that a segment of RNA could contain the sequence AUGUCA.
The complementary bases in the transfer RNA sequence to the DNA gene segment "gccaatgct" would be "CGGUUACGA". Transfer RNA molecules have anticodons that are complementary to the codons in mRNA, not the matching DNA sequence.
Transcription is the second part of the Central Dogma of biology: DNA to RNA to Protein. At the end of transcription, there is an RNA copy of the DNA segment that has been spliced so that it only contains the coding sequences for the gene. That is then exported for translation. This segment, the direct project of transcription is messenger RNA or mRNA.
single stranded RNA
When viral RNA is transcribed into DNA, the enzyme reverse transcriptase may not always copy the entire viral RNA molecule. This can lead to a shorter DNA segment being produced, resulting in a loss of genetic information. During replication, this shorter DNA segment is then duplicated along with the rest of the viral genome, maintaining the incomplete section in subsequent generations of the virus.
The template used in transcription is the DNA molecule. During transcription, a segment of DNA is copied into a complementary RNA sequence by RNA polymerase. This RNA molecule serves as a template for protein synthesis during translation.
a gene.
my left cheek
The complementary bases in the transfer RNA sequence to the DNA gene segment "gccaatgct" would be "CGGUUACGA". Transfer RNA molecules have anticodons that are complementary to the codons in mRNA, not the matching DNA sequence.
Transcription is the second part of the Central Dogma of biology: DNA to RNA to Protein. At the end of transcription, there is an RNA copy of the DNA segment that has been spliced so that it only contains the coding sequences for the gene. That is then exported for translation. This segment, the direct project of transcription is messenger RNA or mRNA.
single stranded RNA
When viral RNA is transcribed into DNA, the enzyme reverse transcriptase may not always copy the entire viral RNA molecule. This can lead to a shorter DNA segment being produced, resulting in a loss of genetic information. During replication, this shorter DNA segment is then duplicated along with the rest of the viral genome, maintaining the incomplete section in subsequent generations of the virus.
Yes, that's correct. Transcription is the process by which the genetic information in a segment of DNA is used to create a complementary RNA strand. This RNA molecule can then be used to direct the synthesis of proteins in a cell.
The transcription process stops.mRNA detaches and moves to the ribosomesTranscription is the first step of gene expression, in which a particular segment of DNA is copied into RNA by the enzyme RNA polymerase.
The template used in transcription is the DNA molecule. During transcription, a segment of DNA is copied into a complementary RNA sequence by RNA polymerase. This RNA molecule serves as a template for protein synthesis during translation.
It would read tggatc because in DNA t matches with A and C matches with G. In RNA a matches with U and C matches with G.
No, it cannot because it has no length.
The transcription process stops.mRNA detaches and moves to the ribosomesTranscription is the first step of gene expression, in which a particular segment of DNA is copied into RNA by the enzyme RNA polymerase.