11. Deoxyribose : Sugar found in DNA nucleotide
12. Nucleus : Transcription occurs in this part of the cell
13. Point mutation: Substitution of one nucleotide bases pair for another
14. Deletion mutation: Removing some nucleotide bases from DNA
15. Exons: Part of gene that get translate into a protein
16. Translation: Process of making a DNA
17. Nitrogenous bases H bond: Rungs (steps) of DNA "ladder"
18. mRNA: Molecule that carries instruction for making a protein from a gene in the nucleus to a ribosomes in the cytoplasm.
19. DNA helicase : Enzyme that unwinds that DNA double helix
20. DNA polymerase: The enzymes thats synthesizes DNA by connecting bases that are complementary to the original template strand.
11. Deoxyribose 12. 13. 14. 15. 16. Nucleus Point mutation Deletion mutation Exons Translation Nitrogenous bases...
12. Nucleus 13. Point mutation 14. Deletion mutation 15. Exons 16. Translation 17. Nitrogenous bases H bonded 18. mRNA B. Enzyme that unwinds DNA double helix C. Sugar found in DNA nucleotide D. Process of making a protein E. Substitution of one nucleotide base pair for another F. Rungs (steps) of DNA "ladder" G. Transcription occurs in this part of the cell H. Enzyme that synthesizes DNA by connecting bases tha are complementary to the original template stra 1. Removing...
UNIT V Chapter 12,13,814 WORKSHEET1. DNA geneA. Complementary to Cytosine2. Transcription 3. Sugar-Phosphate sackbone 4. IntronsB. With proteins makes up ribosomes5. Semi-conservative6. tRNA.E. Uprights (sides) of DNA "ladder"7. DNA Ligase.F. Part of a gene that gets spliced out during RNA processing G. Enzyme that joins lagging strand fragments of DNA or "sticky ends"9. Guanine?10. Anti-codon H. Molecule that carries amino acid to translation site1. New DNA contains one old and one new strand12. Nucleus 13. Point mutation 14. Deletion mutationA....
c) The steps or rungs of the DNA ladder are composed of phosphate group 4 Deoxyribose 15. Use Figure 2 and 3 of the lab to compare the genome of a human with a mouse, fruit fly and yeast. paired in a specific way. d) Adenine in one DNA strand always pain with thymine ) Bases in opposite strands of a DNA molecule are linked together by hydrogen in the other strand and bonds. Yeast Human Mouse Fruit Fly Number...
13. Why are ribonucleoside triphosphates the monomers required for RNA synthesis rather than ribonucleoside monophosphates? A. Only ribonucleoside triphosphates contain the sugar ribose. B. Ribonucleoside triphosphates have low potential energy, making the polymerization reaction endergonic. C. Ribonucleoside triphosphates have high potential energy, making the polymerization reaction exergonic. D. Ribonucleoside monophosphates cannot form complementary base pairs with the DNA template. E. Ribonucleoside triphosphates are not used, rather all use deoxyriboside triphosphates. 14. How is a mutation in a bacterial cell that...
DNA DNA Replication: ONA Because DNA Is the ge m Tumes and heart e ine in process called DNA curs in the nucleus of s acest FS Parent strand Parent strand Newly replicated DNA Newly replicated DNA- SA0 Daughter DNA molecule Daughter DNA molecule Figure 8.2: Overview of DNA replication and illustration of complementary base pairing. DNA must replicate before cell division so that each new daughter cell receives an exact copy of the parent DNA. 1. Replication begins when...
What are the three functional groups that comprise a nucleotide? What do nucleotides have in common with amino acids or simple sugars? When the structure of DNA was first elucidated, many biologists quickly saw how this structure explained the passage of information from one generation to another. How does the structure of DNA explain generation-to-generation flow of information? In other words, give a brief description of the structure of DNA and tell how this structure allows for replication. Which of...
can u tell me if these answers are correct please!??!!! Choose the best answer for the following questions. Place your answer on the line. If your answer is not on the line.it does not count 1 Mender's discovery that characteristics are inherited due to the transmission of hereditary factors resulted from his (1) dissections to determine how fertilization occurs in pea plants (2analysis of the offspring produced from many pea plant crosses (3) careful microscopic examinations of genes and chromosomes...