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CSCI 474 Bioinformatics Filip Jagodzinski Announcements Labs Tuesdays and Fridays Noon-noon:50 CF162 and 164 CSCI 474 Bioinformatics Filip Jagodzinski Slide 2 Article Reading First article reading and summary assignment Watson JD, Crick FH (1953). "Molecular Structure of Nucleic Acids: A Structure for Deoxyribose Nucleic Acid". Nature 171 (4356): 737–8. • Use google scholar or any of many online resources to find and download the 2 page article • Read the article • Compose a 1 paragraph summary and 1 paragraph critique of the article • Summary : Explain WHAT the article is about, WHY it was written (motivation), and HOW the science was carried out • Critique : Discuss shortcomings of the manuscript’s presentation. Mention items that are not clear. Were the diagrams helpful? Is the article accessible to a nonspecialist? Provide constructive criticism that the author(s) might use to improve the article. You do NOT have to critique the science. Check Canvas for the due date CSCI 474 Bioinformatics Filip Jagodzinski Slide 3 From last time … Q: What do the A, T, C and G letters refer to? CSCI 474 Bioinformatics Filip Jagodzinski Slide 4 From last time … Q: What do the A, T, C and G letters refer to? CSCI 474 Bioinformatics Filip Jagodzinski Slide 5 From last time … • What does the DNA sequence of a species tell us about an organism? • What are the similarities and differences among different living organisms? • What metrics did you use to determine which organisms were most or least like the others? CSCI 474 Bioinformatics Filip Jagodzinski Slide 6 From last time … CSCI 474 Bioinformatics Filip Jagodzinski Slide 7 From last time … CSCI 474 Bioinformatics Filip Jagodzinski Slide 8 From last time … CSCI 474 Bioinformatics Filip Jagodzinski Slide 9 From last time … CSCI 474 Bioinformatics Filip Jagodzinski Slide 10 Today Biology and Chemistry Primers Databases (unless explicitly noted, figures are from Wikipedia) CSCI 474 Bioinformatics Filip Jagodzinski Slide 11 Biology and Chemistry Primers – The Cell Key terms cell nucleus DNA RNA Q: How many cells are there in a human body? Q: What is the role of the nucleus? Q: Where does DNA reside? What is the role of RNA? Q: Where are Proteins synthesized? CSCI 474 Bioinformatics Filip Jagodzinski Slide 12 Biology and Chemistry Primers – The Cell Key terms cell nucleus DNA RNA Q: How many cells are there in a human body? Q: What is the role of the nucleus? Q: Where does DNA reside? What is the role of RNA? Q: Where are Proteins synthesized? CSCI 474 Bioinformatics Filip Jagodzinski Slide 13 Biology and Chemistry Primers – The Cell 10-100 micrometers (mm) large (3070 trillion cells in a human) Double-membraned nucleus contains the DNA RNA is synthesized in the nucleus Proteins synthesized in the cytoplasm by ribosomes and with the help of RNA CSCI 474 Bioinformatics Filip Jagodzinski Slide 14 Biology and Chemistry Primers - DNA Key terms Encode genetic information Double stranded Helix Deoxyribose CSCI 474 Bioinformatics Filip Jagodzinski Slide 15 Biology and Chemistry Primers - DNA Key terms Encode genetic information Double stranded Helix Deoxyribose Q: What does it mean to “encode” genetic information? Q: What is deoxyribose? Q: What are the 3’ and 5’ ends of DNA? Q: How many base pairs are there in the human genome? Q: What is the “structure” of DNA? CSCI 474 Bioinformatics Filip Jagodzinski Slide 16 Biology and Chemistry Primers - DNA Key terms Encode genetic information Double stranded Helix Deoxyribose Q: What does it mean to “encode” genetic information? Q: What is deoxyribose? Q: What are the 3’ and 5’ ends of DNA? Q: How many base pairs are there in the human genome? Q: What is the “structure” of DNA? CSCI 474 Bioinformatics Filip Jagodzinski Slide 17 Biology and Chemistry Primers - DNA The sequence of nucleotides is the genetic “code” Here the sequence is ACTG CSCI 474 Bioinformatics Filip Jagodzinski Slide 18 Biology and Chemistry Primers - DNA The sequence of nucleotides is the genetic “code” Here the sequence is ACTG Two nucleotides bind together to form a base pair G(uanine) always pairs with C(cytosine), and A(denine) always pairs with T(hymine) CSCI 474 Bioinformatics Filip Jagodzinski Slide 19 Biology and Chemistry Primers - DNA There are approximately 3 Billion base pairs in the human genome Q: How many “meters” is the human genome? (if you were to uncoil it?) CSCI 474 Bioinformatics Filip Jagodzinski Slide 20 Biology and Chemistry Primers - DNA There are approximately 3 Billion base pairs in the human genome Q: How many “meters” is the human genome? (if you were to uncoil it?) Approximately 1012 meters CSCI 474 Bioinformatics Filip Jagodzinski Slide 21 Biology and Chemistry Primers - DNA Q: What is dexoyribose? Q: What is its role in DNA? CSCI 474 Bioinformatics Filip Jagodzinski Slide 22 Biology and Chemistry Primers - DNA Deoxyribose ribose ? CSCI 474 Bioinformatics Filip Jagodzinski Slide 23 Biology and Chemistry Primers - DNA Deoxyribose ribose ribose CSCI 474 Bioinformatics Filip Jagodzinski Slide 24 Biology and Chemistry Primers - DNA Deoxyribose ribose Carbohydrate (sugar) … with 5 carbon atoms, 10 hydrogen atoms, and 5 oxygen atoms ribose Q: Where are all 10 hydrogen atoms? CSCI 474 Bioinformatics Filip Jagodzinski Slide 25 Biology and Chemistry Primers - DNA Deoxyribose ? ribose ribose CSCI 474 Bioinformatics Filip Jagodzinski Slide 26 Biology and Chemistry Primers - DNA Deoxyribose Take away ? ribose ribose CSCI 474 Bioinformatics Filip Jagodzinski Slide 27 Biology and Chemistry Primers - DNA Deoxyribose Take away ribose CSCI 474 Bioinformatics Filip Jagodzinski oxygen ribose 2-deoxyribose Slide 28 Biology and Chemistry Primers - DNA Deoxyribose Take away ribose oxygen ribose 2-deoxyribose Q: What does the “2” refer to? CSCI 474 Bioinformatics Filip Jagodzinski Slide 29 Biology and Chemistry Primers - DNA 5’ 3’ 2-deoxyribose 5’ 3’ CSCI 474 Bioinformatics Filip Jagodzinski Slide 30 Biology and Chemistry Primers - DNA Task: Identify the phosphate, sugar, and base components of DNA CSCI 474 Bioinformatics Filip Jagodzinski Slide 31 Biology and Chemistry Primers - DNA Task: Identify the phosphate, sugar, and base components of DNA Phosphate Sugar Base The complementary strands are anti-parallel CSCI 474 Bioinformatics Filip Jagodzinski Slide 32 Biology and Chemistry Primers - DNA Q: What is the structure of DNA? Q: Where “are” the bases in a chromosome? CSCI 474 Bioinformatics Filip Jagodzinski Slide 33 Biology and Chemistry Primers - DNA Q: What is the structure of DNA? Q: Where “are” the bases in a chromosome? CSCI 474 Bioinformatics Filip Jagodzinski Slide 34 Biology and Chemistry Primers - DNA Depending on whether the DNA is “in use,” it can exist in different forms – condensed, uncoiled, etc. Source : Qiu J. Epigenetics: unfinished symphony. Nature. 2006 May 11;441(7090):143-5. CSCI 474 Bioinformatics Filip Jagodzinski Slide 35 Chromosome refers to the condensed, or coiled, form of DNA Biology and Chemistry Primers - DNA Short arm centromere Long arm chromatid Source : Qiu J. Epigenetics: unfinished symphony. Nature. 2006 May 11;441(7090):143-5. CSCI 474 Bioinformatics Filip Jagodzinski This is a gross simplification. DNA is much more dense than the strands shown here. Remember : 3 BILLION base pairs among 23 human chromosomes Slide 36 Biology and Chemistry Primers - RNA Key terms RNA mRNA Q: What are the differences (structural, functional, etc.) between DNA and RNA? Q: What are the nucleic acids the make up RNA? CSCI 474 Bioinformatics Filip Jagodzinski Slide 37 Biology and Chemistry Primers - RNA Key terms RNA mRNA Q: What are the differences (structural, functional, etc.) between DNA and RNA? Q: What are the nucleic acids the make up RNA? CSCI 474 Bioinformatics Filip Jagodzinski Slide 38 Biology and Chemistry Primers - RNA Ribonucleic Acid is a single stranded molecule (Although it can coil in on itself to assume globular-like forms and form loop-like regions) CSCI 474 Bioinformatics Filip Jagodzinski Slide 39 Biology and Chemistry Primers - RNA RNA’s backbone is made up of ribose (instead of 2-deoxyriboxe) ribose CSCI 474 Bioinformatics Filip Jagodzinski 2-deoxyribose Slide 40 Biology and Chemistry Primers - RNA A G C U CSCI 474 Bioinformatics Filip Jagodzinski Slide 41 Biology and Chemistry Primers – Molecular Diagrams • Atoms • Orbitals • aromaticity CSCI 474 Bioinformatics Filip Jagodzinski (on the board explanation) Slide 42 Biology and Chemistry Primers – DNA and RNA Key terms dsDNA intron exon hnRNA mRNA codon Transcription CSCI 474 Bioinformatics Filip Jagodzinski Slide 43 Biology and Chemistry Primers – DNA and RNA Key terms T G G A C G T A C G T A T C G T A C C T G C A T G C A T A G C A dsDNA intron exon hnRNA mRNA codon Transcription Q: What are the different forms of RNA, and what is the purpose of each? Q: How is DNA processed to make RNA? CSCI 474 Bioinformatics Filip Jagodzinski Slide 44 Biology and Chemistry Primers – DNA and RNA dsDNA The double stranded DNA (dsDNA) includes exon regions made up triplets of bases pairs that encode a specific amino acid. Exons are expressed. T G G A C G T A C G T A T C G T A C C T G C A T G C A T A G C A triplet triplet intron exon triplet triplet i Key terms dsDNA intron exon hnRNA mRNA codon Transcription exon Introns are interweaving sequences of base pairs that are NOT expressed (manifest as an amino acid in a polypeptide produced by the ribosome) CSCI 474 Bioinformatics Filip Jagodzinski Slide 45 Biology and Chemistry Primers – DNA and RNA dsDNA The double stranded DNA (dsDNA) includes exon regions made up triplets of bases pairs that encode a specific amino acid. Exons are expressed. T G G A C G T A C G T A T C G T A C C T G C A T G C A T A G C A triplet triplet hnRNA intron exon triplet triplet i Key terms dsDNA intron exon hnRNA mRNA codon Transcription exon U G G A C G U A C G U A U C G U A C C T G C A T G C A T A G C ATranscription is the process through which heterogeneous nuclear RNA (hnRNA) is created that is identical to the 5’-3’ orientation of the dsDNA (Uracil is substituted for Thymine) CSCI 474 Bioinformatics Filip Jagodzinski Slide 46 Biology and Chemistry Primers – DNA and RNA dsDNA The double stranded DNA (dsDNA) includes exon regions made up triplets of bases pairs that encode a specific amino acid. Exons are expressed. T G G A C G T A C G T A T C G T A C C T G C A T G C A T A G C A triplet triplet exon hnRNA intron triplet triplet i dsDNA intron exon hnRNA mRNA codon Transcription exon U G G A C G U A C G U A U C G U A C C T G C A T G C A T A G C A mRNA A C G U A C G U A C G U CSCI 474 Bioinformatics Filip Jagodzinski Key terms The hnRNA is processed (excision) in which intron regions are spliced out, and the remaining exons are ligated to form the mRNA Slide 47 Biology and Chemistry Primers – DNA and RNA dsDNA The double stranded DNA (dsDNA) includes exon regions made up triplets of bases pairs that encode a specific amino acid. Exons are expressed. T G G A C G T A C G T A T C G T A C C T G C A T G C A T A G C A triplet triplet exon triplet i U G G A C G U A C G U A U C G U A C C T G C A T G C A T A G C A mRNA A C G U A C G U A C G U codon codon codon CSCI 474 Bioinformatics Filip Jagodzinski dsDNA intron exon hnRNA mRNA codon Transcription exon hnRNA intron triplet Key terms codon Each 3-base exon in the mRNA is called a codon mRNA travels OUT of the nucleus (through nuclear pores), and is the blueprint for polypeptide synthesis Slide 48 Biology and Chemistry Primers – DNA and RNA Transcription https://www.youtube.com/watch?v=ztPkv7wc3yU CSCI 474 Bioinformatics Filip Jagodzinski Slide 49 Biology and Chemistry Primers – Ribosomes, Protein Synthesis Key terms Translation Ribosome tRNA Codon Amino acid CSCI 474 Bioinformatics Filip Jagodzinski Slide 50 Biology and Chemistry Primers – Ribosomes, Protein Synthesis Key terms Q: How are proteins synthesized in the cell? Q: What is RNA’s role in protein synthesis? CSCI 474 Bioinformatics Filip Jagodzinski Translation Ribosome tRNA Codon Amino acid Slide 51 Biology and Chemistry Primers – Ribosomes, Protein Synthesis Key terms Translation is the process through which the ribosome produces a polypeptide chain made up of amino acids. tRNA and mRNA are both involved. CSCI 474 Bioinformatics Filip Jagodzinski Translation Ribosome tRNA Codon Amino acid Slide 52 Biology and Chemistry Primers – Ribosomes, Protein Synthesis In the cytoplasm (outside of the nucleus, but still “inside” the cell), transfer RNA (tRNA) molecules abound. Key terms Translation Ribosome tRNA Codon Amino acid CSCI 474 Bioinformatics Filip Jagodzinski Slide 53 Biology and Chemistry Primers – Ribosomes, Protein Synthesis At the 3’ end of a tRNA molecule, one of the 20 naturally occurring amino acids is attached Key terms Translation Ribosome tRNA Codon Amino acid CSCI 474 Bioinformatics Filip Jagodzinski Slide 54 Biology and Chemistry Primers – Ribosomes, Protein Synthesis mRNA A C G U A C G U A codon codon codon C G U codon Q: What is the relationship between tRNA and codons, and between codons and amino acids? CSCI 474 Bioinformatics Filip Jagodzinski Slide 55 Biology and Chemistry Primers – Ribosomes, Protein Synthesis mRNA A C G U A C G U A codon codon codon C G U codon A codon maps to one of Ea the 20 naturally occurring amino acids The anticodon region (the anticodon loop) of a tRNA molecule is made up of 3 bases that are complementary to a codon in a mRNA CSCI 474 Bioinformatics Filip Jagodzinski Slide 56 Biology and Chemistry Primers – Ribosomes, Protein Synthesis mRNA A C G U A C G U A codon codon codon C G U codon A codon maps to one of Ea the 20 naturally occurring amino acids Q: The tRNA molecule for the codon ACG has WHAT anticodon on its anticodon loop? CSCI 474 Bioinformatics Filip Jagodzinski Slide 57 Biology and Chemistry Primers – Ribosomes, Protein Synthesis mRNA A C G U A C G U A codon codon codon C G U codon A codon maps to one of Ea the 20 naturally occurring amino acids Codon ACG is complementary to anticodon UGC Q: A tRNA with anticodon UGC has what amino acid attached to its 3’ end? CSCI 474 Bioinformatics Filip Jagodzinski Slide 58 Biology and Chemistry Primers – Ribosomes, Protein Synthesis Q: What protein in the cytoplasm is responsible for protein synthesis CSCI 474 Bioinformatics Filip Jagodzinski Slide 59 Biology and Chemistry Primers – Ribosomes, Protein Synthesis Q: What protein in the cytoplasm is responsible for protein synthesis CSCI 474 Bioinformatics Filip Jagodzinski Slide 60 Biology and Chemistry Primers – Ribosomes, Protein Synthesis As the ribosome processes (moves over) the mRNA, codons are read one-by-one tRNA molecules with complementary anticodons, with amino acids attached, are retrieved from the cytoplasm The tRNAs’ amino acids are joined end-to-end to form a polypeptide chain CSCI 474 Bioinformatics Filip Jagodzinski Slide 61 Biology and Chemistry Primers – Ribosomes, Protein Synthesis Translation https://www.youtube.com/watch?v=Jml8CFBWcDs CSCI 474 Bioinformatics Filip Jagodzinski Slide 62 Biology and Chemistry Primers - Proteins Key terms Backbone Amino acid Hydrogen bonds Hydrophobic interactions Polypeptide Secondary structure Tertiary structure CSCI 474 Bioinformatics Filip Jagodzinski Slide 63 Biology and Chemistry Primers - Proteins Key terms Q: What is a protein? Q: What is its structure (backbone/R groups)? Q: What is a protein’s function? CSCI 474 Bioinformatics Filip Jagodzinski Backbone Amino acid Hydrogen bonds Hydrophobic interactions Polypeptide Secondary structure Tertiary structure Slide 64 Biology and Chemistry Primers - Proteins Proteins are made up of atoms. Each type of atom has characteristic behaviors (how it interacts with other atoms) based on its composition CSCI 474 Bioinformatics Filip Jagodzinski Slide 65 Biology and Chemistry Primers - Proteins The ribosome joins amino acids end-to-end to form a polypeptide chain The backbone of a polypeptide chain has certain properties … planarity in some places, flexibility in others, rigidity in others CSCI 474 Bioinformatics Filip Jagodzinski Slide 66 Biology and Chemistry Primers - Proteins The ribosome joins amino acids end-to-end to form a polypeptide chain The primary structure CSCI 474 Bioinformatics Filip Jagodzinski Slide 67 Biology and Chemistry Primers - Proteins The atoms among the amino acids in a polypeptide chain interact with each other to form bonds, cause repulsion, angles and distances are imposed, etc. CSCI 474 Bioinformatics Filip Jagodzinski Slide 68 Biology and Chemistry Primers - Proteins These angle and distance constrains between atoms result in secondary structures such as alpha helices and beta sheets CSCI 474 Bioinformatics Filip Jagodzinski Slide 69 Biology and Chemistry Primers - Proteins The secondary structures are folded (in a still not fully understood process) into a protein’s tertiary structure. CSCI 474 Bioinformatics Filip Jagodzinski Slide 70 Biology and Chemistry Primers - Proteins The secondary structures are folded (in a still not fully understood process) into a protein’s tertiary structure. A protein bends and flexes, and interacts with other molecules and proteins, to perform its function CSCI 474 Bioinformatics Filip Jagodzinski Slide 71 Biology and Chemistry Primers – Databases The first lab : locating the DNA sequence and protein structure of Hemoglobin CSCI 474 Bioinformatics Filip Jagodzinski Slide 72 Up next Friday Lab Databases CSCI 474 Bioinformatics Filip Jagodzinski Slide 73
