Nucleotide HW Key
... DNA is double stranded, found only in nucleus, has AGCT (v. AGCU in RNA), deoxyribose v ribose (in RNA) 5. Why is DNA more stable than RNA? DNA has no oxygen on C-2 of the sugar while RNA does. That oxygen on C-2 of the ribose is where RNA’ses act to open the ring. 6. What are histones and why are t ...
... DNA is double stranded, found only in nucleus, has AGCT (v. AGCU in RNA), deoxyribose v ribose (in RNA) 5. Why is DNA more stable than RNA? DNA has no oxygen on C-2 of the sugar while RNA does. That oxygen on C-2 of the ribose is where RNA’ses act to open the ring. 6. What are histones and why are t ...
DNA Pre-Test
... B. RNA is made from the DNA template C. Another copy of DNA is made D. DNA is made from the RNA template ...
... B. RNA is made from the DNA template C. Another copy of DNA is made D. DNA is made from the RNA template ...
Section 12.1 - CPO Science
... 1. Replication begins with the partial unwinding of the double helix. 2. The base pairs separate. 3. A special molecule moves along each original strand of DNA and “reads” the bases. 4. A new strand is assembled along each original strand. (New pieces come from the cytoplasm.) 5. The strands re-twis ...
... 1. Replication begins with the partial unwinding of the double helix. 2. The base pairs separate. 3. A special molecule moves along each original strand of DNA and “reads” the bases. 4. A new strand is assembled along each original strand. (New pieces come from the cytoplasm.) 5. The strands re-twis ...
Slide 1
... Nucleotides - are molecules that, when joined together, make up the structural units of DNA and RNA (A-G-T-C). Gene - is a code of nucleotides within DNA. Target DNA – The piece of DNA strand that is the focus of the test, i.e. Contains the genes involved in CML. Primer –a short nucleic acid that bi ...
... Nucleotides - are molecules that, when joined together, make up the structural units of DNA and RNA (A-G-T-C). Gene - is a code of nucleotides within DNA. Target DNA – The piece of DNA strand that is the focus of the test, i.e. Contains the genes involved in CML. Primer –a short nucleic acid that bi ...
DNA Replication Amoeba Sisters Video
... DNA Replication Amoeba Sisters Video As you watch the animation on DNA Replication, answer the following questions. ...
... DNA Replication Amoeba Sisters Video As you watch the animation on DNA Replication, answer the following questions. ...
DNA and RNA
... •The mRNA shows the code to the tRNA who translates the information and bonds the nitrogens in the correct place. •Translation- when the tRNA reads the nucleic “language” joining amino acid “language.” •Codon- mRNA code from the DNA •Anticodon- Group of the 3 nitrogens that will join the RNA codon. ...
... •The mRNA shows the code to the tRNA who translates the information and bonds the nitrogens in the correct place. •Translation- when the tRNA reads the nucleic “language” joining amino acid “language.” •Codon- mRNA code from the DNA •Anticodon- Group of the 3 nitrogens that will join the RNA codon. ...
Ch 13 Prac Test B
... _____ 15. purines _____ 16. pyrimidines _____ 17. helicases _____ 18. DNA polymerases _____ 19. replication forks _____ 20. RNA polymerase ...
... _____ 15. purines _____ 16. pyrimidines _____ 17. helicases _____ 18. DNA polymerases _____ 19. replication forks _____ 20. RNA polymerase ...
Organelles - Biology Junction
... 1. Nucleotides in DNA are grouped together into __________ that code for the making of ____________. 2. In eukaryotes, the genes (instructions for making proteins) are located in the ___________, while the amino acids to make proteins are found in the ______________. 3. _________ is the nucleic acid ...
... 1. Nucleotides in DNA are grouped together into __________ that code for the making of ____________. 2. In eukaryotes, the genes (instructions for making proteins) are located in the ___________, while the amino acids to make proteins are found in the ______________. 3. _________ is the nucleic acid ...
RNA - Burlington Township School District
... During translation, the cell uses information from messenger RNA to produce proteins. A – Transcription occurs in nucleus. B – mRNA moves to the cytoplasm then to the ribosomes. tRNA “read” the mRNA and obtain the amino acid coded for. C – Ribosomes attach amino acids together forming a poly ...
... During translation, the cell uses information from messenger RNA to produce proteins. A – Transcription occurs in nucleus. B – mRNA moves to the cytoplasm then to the ribosomes. tRNA “read” the mRNA and obtain the amino acid coded for. C – Ribosomes attach amino acids together forming a poly ...
RNA - TeacherWeb
... During translation, the cell uses information from messenger RNA to produce proteins. A – Transcription occurs in nucleus. B – mRNA moves to the cytoplasm then to the ribosomes. tRNA “read” the mRNA and obtain the amino acid coded for. C – Ribosomes attach amino acids together forming a poly ...
... During translation, the cell uses information from messenger RNA to produce proteins. A – Transcription occurs in nucleus. B – mRNA moves to the cytoplasm then to the ribosomes. tRNA “read” the mRNA and obtain the amino acid coded for. C – Ribosomes attach amino acids together forming a poly ...
NAME DNA, RNA, and PROTEINS - BGHS-GRAVES-2011
... 5. Which type(s) of RNA is/are involved in protein synthesis? _______________________________ 6. Where in the cell does transcription take place?_______________________________________ 7. Where in the cell does translation take place?______________________________________ 8. DNA wraps around histone ...
... 5. Which type(s) of RNA is/are involved in protein synthesis? _______________________________ 6. Where in the cell does transcription take place?_______________________________________ 7. Where in the cell does translation take place?______________________________________ 8. DNA wraps around histone ...
lec---11
... The nucleic acid strand is a polymer of nucleotides • Nucleic acids are polymers of monomers called nucleotides. • Each nucleotide consists of three parts: a nitrogen base, a pentose sugar, and a phosphate group. ...
... The nucleic acid strand is a polymer of nucleotides • Nucleic acids are polymers of monomers called nucleotides. • Each nucleotide consists of three parts: a nitrogen base, a pentose sugar, and a phosphate group. ...
You Know It
... one sugar, one phosphate, one nitrogen base deoxyribose * p. a sequence of 3 nitrogen bases on the mRNA ribose * q. the sugar found in DNA electrophoresis ...
... one sugar, one phosphate, one nitrogen base deoxyribose * p. a sequence of 3 nitrogen bases on the mRNA ribose * q. the sugar found in DNA electrophoresis ...
Nucleic Acids/Protein
... Process used to produce a polypeptide (protein) Uses all forms of RNA, ribosome, and amino acids mRNA = message ...
... Process used to produce a polypeptide (protein) Uses all forms of RNA, ribosome, and amino acids mRNA = message ...
Biology 12
... 1. What are the two types of 1. DNA (deoxyribonucleic acid) nucleic acids? 2. RNA (ribonucleic acid) 2. What are two functions of 1. stores genetic information in the cell DNA? 2. replicates and transmits this information when a cell reproduces and when an organism reproduces 3. What is the science ...
... 1. What are the two types of 1. DNA (deoxyribonucleic acid) nucleic acids? 2. RNA (ribonucleic acid) 2. What are two functions of 1. stores genetic information in the cell DNA? 2. replicates and transmits this information when a cell reproduces and when an organism reproduces 3. What is the science ...
DNA Quick Notes
... Origins of replication- Site on the chromosome where replication begins, on a bacterial chromosome, there is only one. On a Eukaryotic chromosome there are several Replication is initiated by a protein complex that attaches at an origin & opens up a bubble Helicase makes the DNA unwind so this can h ...
... Origins of replication- Site on the chromosome where replication begins, on a bacterial chromosome, there is only one. On a Eukaryotic chromosome there are several Replication is initiated by a protein complex that attaches at an origin & opens up a bubble Helicase makes the DNA unwind so this can h ...
Module 16 - MDC Faculty Web Pages
... 3 nitrogen-containing base found in DNA (derived from pyrimidine) 6 nitrogen-containing base found in RNA (derived from pyrimidine) 9 the five-carbon pentose sugar found in DNA 11 _______ RNA is produced in the nucleus by DNA to carry the genetic information to the ribosomes 13 the double _______ is ...
... 3 nitrogen-containing base found in DNA (derived from pyrimidine) 6 nitrogen-containing base found in RNA (derived from pyrimidine) 9 the five-carbon pentose sugar found in DNA 11 _______ RNA is produced in the nucleus by DNA to carry the genetic information to the ribosomes 13 the double _______ is ...
DOC
... or LESS. You have fifteen minutes to answer ten questions. 1. When you input the mRNA sequence of your gene of interest into Ambion’s website, what nucleotide pattern does it look for to come up with a list of candidate siRNA ...
... or LESS. You have fifteen minutes to answer ten questions. 1. When you input the mRNA sequence of your gene of interest into Ambion’s website, what nucleotide pattern does it look for to come up with a list of candidate siRNA ...
Microbial Genetics: Chapter 8 expression)
... Genetics: science of heredity; includes study of genes (carry information, replication, expression) *Chromosomes made of DNA contain organism’s entire genome: double stranded in most cells. *Genes: segments of DNA—code for proteins *Composition: Macromolecule of repeating units of nucleotides Nitrog ...
... Genetics: science of heredity; includes study of genes (carry information, replication, expression) *Chromosomes made of DNA contain organism’s entire genome: double stranded in most cells. *Genes: segments of DNA—code for proteins *Composition: Macromolecule of repeating units of nucleotides Nitrog ...
Across
... 2. the two sides of DNA held together by weak ____ bonds 5. always pairs with cytosine 6. where protein is assembled from the message on the RNA 7. the shape of DNA, double ____ 9. process of copying DNA 13. composed of a sugar, a base, and a phosphate 14. sections of DNA that code for a trait 15. r ...
... 2. the two sides of DNA held together by weak ____ bonds 5. always pairs with cytosine 6. where protein is assembled from the message on the RNA 7. the shape of DNA, double ____ 9. process of copying DNA 13. composed of a sugar, a base, and a phosphate 14. sections of DNA that code for a trait 15. r ...
DNA vs RNA
... ADENINE (A) = THYMINE (T) GUANINE (G) = CYTOSINE (C) B Rosalind Franklin (1952) Took an X-ray of the DNA structure so the patterns could be seen. THE X-RAYS SHOW THAT DNA IS TWISTED AROUND EACH OTHER LIKE A HELIX AND HAS 2 STRANDS. X-ray of DNA ...
... ADENINE (A) = THYMINE (T) GUANINE (G) = CYTOSINE (C) B Rosalind Franklin (1952) Took an X-ray of the DNA structure so the patterns could be seen. THE X-RAYS SHOW THAT DNA IS TWISTED AROUND EACH OTHER LIKE A HELIX AND HAS 2 STRANDS. X-ray of DNA ...
Name ______ Date - Net Start Class
... coded information from the nucleus? a. mRNA b. The ribosomes c. ATP d. The cell membrane 6. The picture above shows an x-ray diffraction of DNA. Who is famous for this picture? The x-ray diffraction of DNA led to the idea that DNA — a. Robert Hooke; and is a very long molecule b. Gregor Mendel; can ...
... coded information from the nucleus? a. mRNA b. The ribosomes c. ATP d. The cell membrane 6. The picture above shows an x-ray diffraction of DNA. Who is famous for this picture? The x-ray diffraction of DNA led to the idea that DNA — a. Robert Hooke; and is a very long molecule b. Gregor Mendel; can ...
DNA/RNA worksheet - Mrs. Brenner`s Biology
... A. message matches C. promoter E. intron B. anticodon D. exon _____2.Which nucleotide is always paired with Adenine IN A DNA ...
... A. message matches C. promoter E. intron B. anticodon D. exon _____2.Which nucleotide is always paired with Adenine IN A DNA ...
Helicase
Helicases are a class of enzymes vital to all living organisms. Their main function is to unpackage an organism's genes. They are motor proteins that move directionally along a nucleic acid phosphodiester backbone, separating two annealed nucleic acid strands (i.e., DNA, RNA, or RNA-DNA hybrid) using energy derived from ATP hydrolysis. There are many helicases resulting from the great variety of processes in which strand separation must be catalyzed. Approximately 1% of eukaryotic genes code for helicases. The human genome codes for 95 non-redundant helicases: 64 RNA helicases and 31 DNA helicases. Many cellular processes, such as DNA replication, transcription, translation, recombination, DNA repair, and ribosome biogenesis involve the separation of nucleic acid strands that necessitates the use of helicases.