0
>gi|13448939:144035-147343 Shigella flexneri virulence plasmid pWR501, complete sequence
ATGAATCAAATTCACAAATTTTTTTGTAATATGACCCAATGTTCACAGGGGGGGGCCGGAGAATTACCTA
CGGTAAAGGAAAAAACATGCAAATTGTCTTTTTCTCCTTTTGTTGTTGGTGCATCCCTGTTGCTCGGGGG
GCCAATAGCTTTTGCTACTCCTCTTTCGGGTACTCAAGAACTTCATTTTTCAGAGGACAATTATGAAAAA
TTATTAACACCTGTTGATGGACTTTCTCCCTTGGGAGCTGGTGAAGATGGAATGGATGCGTGGTATATAA
CTTCTTCCAACCCCTCTCATGCATCTAGAACTAAGCTACGGATTAACTCTGATATTATGATTAGCGCAGG
TCATGGTGGTGCTGGTGATAATAATGATGGTAATAGTTGTGGCGGTAATGGTGGTGACTCTATTACCGGA
TCTGACTTGTCTATAATCAATCAAGGCATGATTCTTGGTGGTAGCGGCGGTAGCGGTGCTGACCATAACG
GTGATGGTGGTGAGGCTGTTACAGGAGACAATCTGTTTATAATAAATGGAGAAATTATTTCAGGTGGACA
TGGTGGCGATAGTTATAGTGATAGTGATGGGGGGAATGGAGGTGATGCCGTCACAGGAGTCAATCTACCC
ATAATCAACAAAGGGACTATTTCCGGTGGTAATGGAGGTAACAATTATGGTGAGGGTGATGGCGGTAATG
GAGGTGATGCCATCACAGGAAGCAGCCTCTCTGTAATCAATAAGGGCACGTTCGCTGGAGGCAACGGAGG
TGCTGCTTACGGTTATGGTTATGATGGCTACGGTGGTAATGCTATCACAGGAGATAACCTGTCTGTAATC
AACAATGGAGCTATTTTAGGCGGTAATGGTGGACATTGGGGGGATGCTATAAATGGTAGCAATATGACCA
TTGCTAATAGCGGATATATAATTTCAGGTAAAGAAGATGATGGAACACAAAATGTAGCAGGTAATGCTAT
CCACATCACTGGTGGAAACAATTCATTAATACTCCATGAAGGTTCTGTCATTACTGGTGATGTACAGGTT
AACAATTCATCCATTCTGAAAATTATCAACAATGATTACACTGGGACCACACCAACTATTGAAGGTGATT
TATGTGCTGGTGATTGTACAACTGTTTCACTATCAGGTAACAAATTCACTGTTTCAGGTGACGTTTCTTT
TGGTGAGAACAGTTCTTTAAATTTAGCTGGAATCAGTAGTCTGGAAGCTTCTGGAAATATGTCATTTGGC
AACAATGTAAAAGTGGAGGCTATTATAAATAACTGGGCGCAGAAGGACTATAAACTGCTAAGTGCAGATA
AAGGGATAACAGGTTTCAGTGTTTCTAATATATCTATCATCAATCCGTTACTCACTACTGGTGCTATTGA
CTATACAAAAAGCTATATCAGTGACCAGAATAAATTGATCTACGGTTTGAGCTGGAATGATACAGATGGC
GACAGTCATGGAGAGTTCAATCTGAAAGAAAACGCTGAACTTACTGTTAGTACTATTCTGGCAGATAATC
TCAGCCATCATAATATAAATAGCTGGGACGGAAAATCCCTAACAAAATCAGGGGAGGGAACTCTCATTTT
GGCGGAAAAAAATACCTACTCTGGTTTCACCAACATCAATGCAGGCATTCTAAAAATGGGGACAGTTGAA
GCTATGACACGTACCGCTGGTGTTATTGTTAATAAAGGTGCTACCTTGAATTTTTCAGGCATGAACCAAA
CTGTTAACACTTTATTAAATAGTGGGACTGTGCTAATCAATAATATTAATGCCCCTTTTTTGCCTGACCC
CGTCATTGTCACAGGTAACATGACTCTGGAGAAAAACGGTCATGTTATTCTCAATAATAGTTCGTCAAAT
GTCGGTCAGACCTATGTTCAGAAAGGTAATTGGCATGGAAAGGGCGGAATATTATCTTTGGGCGCGGTTC
TCGGCAATGACAACAGTAAAACTGACCGGCTGGAAATTGCAGGCCATGCGTCTGGTATTACCTATGTTGC
AGTGACAAATGAGGGAGGCTCTGGAGATAAAACTCTTGAAGGTGTTCAAATTATTTCGACAGATTCTTCT
GATAAGAATGCTTTTATTCAGAAAGGCCGTATTGTTGCTGGTAGTTATGACTATCGCCTGAAACAGGGCA
CTGCATCTGGACTGAATACCAATAAGTGGTATCTAACTAGTCAGATGGATAATCAAGAATCAAAACAGAT
GAGCAATCAAGAGTCTACTCAAATGAGTAGTCGCCGAGCTAGTTCACAGCTTGTATCTTCACTTAATTTG
GGTGAAGGTAGTATTCACACATGGCGCCCTGAAGCTGGCAGTTATATTGCTAACCTGATAGCAATGAACA
CGATGTTTAGTCCTTCTCTCTATGACCGACACGGTAGCACTATTGTTGATCCTACTACAGGTCAGCTCAG
CGAAACCACCATGTGGATTCGTACTGTTGGTGGACATAATGAGCATAATTTAGCTGATAGACAATTAAAA
ACCACAGCTAACAGGATGGTTTATCAGATTGGTGGAGATATTTTGAAGACAAACTTCACTGATCATGATG
GCTTGCATGTGGGTATTATGGGAGCTTATGGATATCAGGATAGCAAAACTCATAATAAGTATACTAGTTA
TAGTTCACGAGGAACTGTGAGCGGTTATACTGCCGGTTTGTACAGTTCTTGGTTTCAGGATGAAAAAGAA
CGAACAGGTCTATATATGGATGCTTGGTTGCAGTACAGTTGGTTTAATAATACAGTCAAAGGAGATGGGT
TAACTGGTGAGAAATATTCCAGCAAAGGAATAACAGGAGCTTTGGAAGCTGGCTATATCTACCCAACCAT
ACGCTGGACTGCTCATAATAATATTGACAACGCATTGTATCTCAATCCACAAGTCCAGATAACTAGGCAT
GGGGTAAAAGCAAACGACTATATTGAACACAATGGCACTATGGTCACATCCTCTGGGGGCAATAATATTC
AAGCAAAATTGGGATTGCGTACATCCTTAATTAGTCAGAGTTGTATCGATAAGGAGACTCTTCGTAAGTT
CGAACCATTTTTGGAAGTGAATTGGAAATGGAGCTCAAAGCAATATGGTGTAATTATGAATGGCATGTCA
AATCACCAGATAGGCAACCGTAATGTGATTGAACTCAAAACTGGTGTGGGGGGGCGTCTTGCAGATAACC
TAAGCATCTGGGGAAACGTATCTCAGCAATTGGGTAATAACAGTTACAGAGACACCCAAGGTATTTTGGG
TGTGAAATATACCTTCTGA
What else can I help you with?
What enzyme matches RNA nucleotides to complementary DNA nucleotides?
The enzyme that matches RNA nucleotides to complementary DNA nucleotides is called reverse transcriptase. It is used by retroviruses like HIV to convert their RNA genome into DNA before integrating it into the host cell's genome.
What two biomolecules can carry the genetic information for a virus?
The two biomolecules that can carry the genetic information for a virus are DNA (deoxyribonucleic acid) and RNA (ribonucleic acid). Viruses can have either DNA or RNA as their genetic material, which carries the instructions for the virus to replicate inside host cells.
How did scientist convert information when using reverse transcriptase?
Scientists use reverse transcriptase to convert RNA into complementary DNA (cDNA). Reverse transcriptase catalyzes the synthesis of cDNA by utilizing the RNA as a template to generate a complementary DNA strand. This allows researchers to study and manipulate the DNA sequence of genes that were originally transcribed from RNA.
How does reverse transcriptase work in the process of converting RNA into DNA?
Reverse transcriptase is an enzyme that can convert RNA into DNA. It does this by using the RNA as a template to synthesize a complementary DNA strand. This process is called reverse transcription and is important in the replication of certain viruses, such as HIV.
How does the process of transcription convert DNA to RNA in a 5' to 3' direction?
During transcription, an enzyme called RNA polymerase reads the DNA template strand in the 3' to 5' direction and synthesizes a complementary RNA strand in the 5' to 3' direction. This process involves matching RNA nucleotides to the DNA template, creating an RNA molecule that is a copy of the original DNA sequence.
What is the name of the nucleotides have no DNA and no RNA?
Nucleotides do not have DNA or RNA. DNA and RNA are composed of nucleotides.
What enzyme matches RNA nucleotides to complementary DNA nucleotides?
The enzyme that matches RNA nucleotides to complementary DNA nucleotides is called reverse transcriptase. It is used by retroviruses like HIV to convert their RNA genome into DNA before integrating it into the host cell's genome.
What two biomolecules can carry the genetic information for a virus?
The two biomolecules that can carry the genetic information for a virus are DNA (deoxyribonucleic acid) and RNA (ribonucleic acid). Viruses can have either DNA or RNA as their genetic material, which carries the instructions for the virus to replicate inside host cells.
What enzyme is needed to turn a RNA virus into a DNA virus?
The enzyme needed to convert RNA into DNA in a process called reverse transcription is called reverse transcriptase. This enzyme is unique to retroviruses, such as HIV, which use it to convert their RNA genome into DNA once they infect a host cell.
What is a non-retroviral virus?
Retroviruses are a class of RNA virus that use Reverse transcription to convert their RNA to DNA for their infection.
How did scientist convert information when using reverse transcriptase?
Scientists use reverse transcriptase to convert RNA into complementary DNA (cDNA). Reverse transcriptase catalyzes the synthesis of cDNA by utilizing the RNA as a template to generate a complementary DNA strand. This allows researchers to study and manipulate the DNA sequence of genes that were originally transcribed from RNA.
How does reverse transcriptase work in the process of converting RNA into DNA?
Reverse transcriptase is an enzyme that can convert RNA into DNA. It does this by using the RNA as a template to synthesize a complementary DNA strand. This process is called reverse transcription and is important in the replication of certain viruses, such as HIV.
How does the process of transcription convert DNA to RNA in a 5' to 3' direction?
During transcription, an enzyme called RNA polymerase reads the DNA template strand in the 3' to 5' direction and synthesizes a complementary RNA strand in the 5' to 3' direction. This process involves matching RNA nucleotides to the DNA template, creating an RNA molecule that is a copy of the original DNA sequence.
Do retroviruses contain DNA for their genetic material?
Retroviruses contain RNA as their genetic material, not DNA. They are unique because they use an enzyme called reverse transcriptase to convert their RNA into DNA once inside a host cell. This DNA is then integrated into the host cell's genome.
Retroviruses are so named because they?
because they reverse the usual DNA-to-RNA flow of genetic information in the process called transcription
What enzyme transcribes DNA?
The enzyme that transcribes the DNA into RNA is called RNA polymerase.
Convert the following DNA sequence into its RNA equivalent and then using the genetic code convert that RNA sequence into the amino acid sequence 5tacttcttcaagact-3?
DNA Sequence = 5tacttcttcaagact-3 RNA Sequence = 3'-AUGAAGAAGUUCUGA-5'You just switch 5' and 3'T becomes AA becomes UC becomes GG becomes CThere should be no Ts in an RNA sequence.
