Place the following steps of protein synthesis in order from first(1) to last.
TATA binding protein attaches to the promoter region of agene.
Dehydration synthesis links adjacent amino acids to create adipeptide.
mRNA strand exits the nucleus of eukaryotic cells.
Large ribosomal subunit attaches to the mRNA transcript.
Determine whether each of the following statements is true offalse.
The promoter region of eukaryotic genes is identified by a seriesof guanine preceeding the TATA box followed by a series ofcytosine.
Transcription factors are the molecules which grab RNA nucleotidesand add them to the growing mRNA strand during transcription.
A eukaryotic cell needs to produce more hemoglobin. To increasetranscription of the gene for this molecule, the cell would likelyincrease the production of the transcription factors which targetthe promoter region of the gene.
The function of transcription is to allow cells to replicate theirDNA (i.e. make extra copies of DNA).
Place the following steps of protein synthesis in order from first(1) to last.
TATA binding protein attaches to the promoter region of agene.
Dehydration synthesis links adjacent amino acids to create adipeptide.
mRNA strand exits the nucleus of eukaryotic cells.
Large ribosomal subunit attaches to the mRNA transcript.
Determine whether each of the following statements is true offalse.
The promoter region of eukaryotic genes is identified by a seriesof guanine preceeding the TATA box followed by a series ofcytosine.
Transcription factors are the molecules which grab RNA nucleotidesand add them to the growing mRNA strand during transcription.
A eukaryotic cell needs to produce more hemoglobin. To increasetranscription of the gene for this molecule, the cell would likelyincrease the production of the transcription factors which targetthe promoter region of the gene.
The function of transcription is to allow cells to replicate theirDNA (i.e. make extra copies of DNA).