Lecture 1 Introduction to recombinant DNA Technology
... in 1952 proved that DNA is hereditary material and not the proteins ...
... in 1952 proved that DNA is hereditary material and not the proteins ...
Understanding DNA Structure
... Phosphates are very soluble in water. Sugars are very soluble in water. Bases are insoluble (different bases dissolve at different pH, but not pH = 7). ...
... Phosphates are very soluble in water. Sugars are very soluble in water. Bases are insoluble (different bases dissolve at different pH, but not pH = 7). ...
Class Presentation Questions for CH 12 Part 1(Sections 1-2-3).
... 5. List three differences between RNA & DNA. 6. RNA molecules are involved mainly in one job…the creation of _____________. 7. RNA molecules are produced by copying part of the molecule sequence of DNA into a complementary sequence in RNA, in a process known as _______________. 8. What enzyme is use ...
... 5. List three differences between RNA & DNA. 6. RNA molecules are involved mainly in one job…the creation of _____________. 7. RNA molecules are produced by copying part of the molecule sequence of DNA into a complementary sequence in RNA, in a process known as _______________. 8. What enzyme is use ...
BIOMOLECULES NAME MULTIPLE CHOICE: Circle the letter for
... THERE MAY BE MORE THAN ONE CORRECT ANSWER. NO other kind of atom can form the number and variety of molecules that ___________________ can because it can bond to 4 other atoms at the same time to make carbohydrates, lipids, nucleic acids, and proteins. A. hydrogen B. oxygen C. carbon D. sodium A ___ ...
... THERE MAY BE MORE THAN ONE CORRECT ANSWER. NO other kind of atom can form the number and variety of molecules that ___________________ can because it can bond to 4 other atoms at the same time to make carbohydrates, lipids, nucleic acids, and proteins. A. hydrogen B. oxygen C. carbon D. sodium A ___ ...
transcription-and-translation-assessment-statements-2016
... 7.3.1 Outline the structure of ribosomes, including protein and RNA composition, large and small subunits, three tRNA binding sites(explain their roles) and mRNA binding sites 7.3.2 List and describe the 4 steps in translation(initiation, elongation, translocation and termination 7.3.3 State that tr ...
... 7.3.1 Outline the structure of ribosomes, including protein and RNA composition, large and small subunits, three tRNA binding sites(explain their roles) and mRNA binding sites 7.3.2 List and describe the 4 steps in translation(initiation, elongation, translocation and termination 7.3.3 State that tr ...
ppt
... • Living things made up of 4 classes of large biological molecules (macromolecules) : 1. Carbohydrates 2. Lipids 3. Proteins 4. Nucleic acids ...
... • Living things made up of 4 classes of large biological molecules (macromolecules) : 1. Carbohydrates 2. Lipids 3. Proteins 4. Nucleic acids ...
DNA-cell division review sheet
... Differentiate between a normal and abnormal karyotype; purpose of karyotype and amniocentesis. Normal: 46 chromosomes, 23 homologous pairs (mom & dad) 1-22 pairs body (autosome) chromosomes, 23rd pair sex chromosomes. Too many or not enough chromosomes may lead to miscarriage and defects in animals, ...
... Differentiate between a normal and abnormal karyotype; purpose of karyotype and amniocentesis. Normal: 46 chromosomes, 23 homologous pairs (mom & dad) 1-22 pairs body (autosome) chromosomes, 23rd pair sex chromosomes. Too many or not enough chromosomes may lead to miscarriage and defects in animals, ...
Practice Qs fro Macromolecules
... 55. How many different amino acids are there? 56. Give 3 jobs for proteins in cells. 57. What four things are bonded to the central carbon of every amino acid? 58. Sketch the structure of an amino acid & label the attached groups. 59. Amino acids are linked together by ____________ synthesis and hel ...
... 55. How many different amino acids are there? 56. Give 3 jobs for proteins in cells. 57. What four things are bonded to the central carbon of every amino acid? 58. Sketch the structure of an amino acid & label the attached groups. 59. Amino acids are linked together by ____________ synthesis and hel ...
DNA
... structure of DNA by using x-ray diffraction of DNA crystals Watson & Crick only figured out the structure, but relied upon the work of Rosalind Franklin who produce the photographs and crystals ...
... structure of DNA by using x-ray diffraction of DNA crystals Watson & Crick only figured out the structure, but relied upon the work of Rosalind Franklin who produce the photographs and crystals ...
Document
... Process of making RNA from DNA All forms of RNA are transcribed RNA does not replicate in living things ...
... Process of making RNA from DNA All forms of RNA are transcribed RNA does not replicate in living things ...
DNA Discovery and Structure
... *DNA composition is species-specific; the amounts and ratios of bases vary from one species to another *in every species he studied, there was a regularity in base ratios where: the # of A residues equaled the # of T residues, and the # of G equaled the # of C ...
... *DNA composition is species-specific; the amounts and ratios of bases vary from one species to another *in every species he studied, there was a regularity in base ratios where: the # of A residues equaled the # of T residues, and the # of G equaled the # of C ...
NOTES: CH 16 part 1
... *DNA composition is species-specific; the amounts and ratios of bases vary from one species to another *in every species he studied, there was a regularity in base ratios where: the # of A residues equaled the # of T residues, and the # of G equaled the # of C ...
... *DNA composition is species-specific; the amounts and ratios of bases vary from one species to another *in every species he studied, there was a regularity in base ratios where: the # of A residues equaled the # of T residues, and the # of G equaled the # of C ...
Slide 1
... DNA Translation • mRNA binds to the rRNA of the ribosome and signals it is ready to be translated • One end of tRNA which is 3 nitrogen bases (a codon) that code for a specific amino acid binds with mRNA • The mRNA binds several different tRNA units connecting the amino acids to make a protein ...
... DNA Translation • mRNA binds to the rRNA of the ribosome and signals it is ready to be translated • One end of tRNA which is 3 nitrogen bases (a codon) that code for a specific amino acid binds with mRNA • The mRNA binds several different tRNA units connecting the amino acids to make a protein ...
Biology Review 2
... Proteins are polypeptides, which are long chains of amino acids. The sequence of nucleotides in each gene contains information for assembling the string of amino acids that make up proteins. During translation, proteins are created from long chains of amino acids whose structure depends on the order ...
... Proteins are polypeptides, which are long chains of amino acids. The sequence of nucleotides in each gene contains information for assembling the string of amino acids that make up proteins. During translation, proteins are created from long chains of amino acids whose structure depends on the order ...
DNA Deoxyribonucleic Acid
... Nuclear membrane allows it to leave! B. Translation = Conversion of the message (mRNA Code) into a protein By the ribosome factories Codon – 3 bases on the mRNA that code for an amino acid. Anticodon – 3 bases on the tRNA that code for an amino acid – follow base pairing rules for the codo ...
... Nuclear membrane allows it to leave! B. Translation = Conversion of the message (mRNA Code) into a protein By the ribosome factories Codon – 3 bases on the mRNA that code for an amino acid. Anticodon – 3 bases on the tRNA that code for an amino acid – follow base pairing rules for the codo ...
Chapter Three The Biological Basis of Life
... – Zygote – union of sex cells to form the potential of developing into a new individual; in this way gametes transmit genetic information from parent to offspring. ...
... – Zygote – union of sex cells to form the potential of developing into a new individual; in this way gametes transmit genetic information from parent to offspring. ...
3-Molecular biology
... the selected amino acids to the growing protein chain. • rRNA (ribosomal RNA) Function: Site of protein synthesis (factory). ...
... the selected amino acids to the growing protein chain. • rRNA (ribosomal RNA) Function: Site of protein synthesis (factory). ...
Application form for DNA KIT for older animals
... Disclaimer: I understand that pursuant to the Data Protection Acts, 1988 and 2003 (the “DPA”), my consent is required for Horse Sport Ireland to process personal data which it may have in its possession concerning me including disclosure to third parties such as the Department of Agriculture Food an ...
... Disclaimer: I understand that pursuant to the Data Protection Acts, 1988 and 2003 (the “DPA”), my consent is required for Horse Sport Ireland to process personal data which it may have in its possession concerning me including disclosure to third parties such as the Department of Agriculture Food an ...
DNA NAME BRACELET ACTIVITY FOR
... FIND YOUR NAME IN THE LANGUAGE OF DNA AT: http://www.ebi.ac.uk/training/schools/decode/) ...
... FIND YOUR NAME IN THE LANGUAGE OF DNA AT: http://www.ebi.ac.uk/training/schools/decode/) ...
DNA
... • Bacteriophages are simple: just DNA or RNA and a protein coat. • The labeled the DNA OR protein coat with a a radioactive marker. • What they found was the DNA entered the cells, not the proteins. ...
... • Bacteriophages are simple: just DNA or RNA and a protein coat. • The labeled the DNA OR protein coat with a a radioactive marker. • What they found was the DNA entered the cells, not the proteins. ...
Lab 3 Minipreps - Ohio University
... Qiagen (Santa Clarita, CA). It is based on the alkaline lysis method of isolation of plasmid DNA. In step 1 you pellet your bacteria, remove the media, and resuspend the pellet in resuspension buffer. Next the bacteria are lysed by addition of an alkaline lysis buffer. The lysis time and buffer allo ...
... Qiagen (Santa Clarita, CA). It is based on the alkaline lysis method of isolation of plasmid DNA. In step 1 you pellet your bacteria, remove the media, and resuspend the pellet in resuspension buffer. Next the bacteria are lysed by addition of an alkaline lysis buffer. The lysis time and buffer allo ...
HONORS BIOMOLECULES NAME Chapter 2
... THERE MAY BE MORE THAN ONE CORRECT ANSWER. NO other kind of atom can form the number and variety of molecules that ___________________ can because it can bond to 4 other atoms at the same time to make carbohydrates, lipids, nucleic acids, and proteins. A. hydrogen B. oxygen C. carbon D. sodium A ___ ...
... THERE MAY BE MORE THAN ONE CORRECT ANSWER. NO other kind of atom can form the number and variety of molecules that ___________________ can because it can bond to 4 other atoms at the same time to make carbohydrates, lipids, nucleic acids, and proteins. A. hydrogen B. oxygen C. carbon D. sodium A ___ ...
Questions - Humble ISD
... 1. What is the shape of DNA? Who determined this shape? 2. What biomolecule does DNA belong to? 3. What is the monomer of DNA. 4. What are the 3 parts of the monomer? 5. A single-ringed N-base is called _____ & includes ________ & _______ 6. A double-ringed N-base is called ______ & includes _______ ...
... 1. What is the shape of DNA? Who determined this shape? 2. What biomolecule does DNA belong to? 3. What is the monomer of DNA. 4. What are the 3 parts of the monomer? 5. A single-ringed N-base is called _____ & includes ________ & _______ 6. A double-ringed N-base is called ______ & includes _______ ...
DNA nanotechnology
DNA nanotechnology is the design and manufacture of artificial nucleic acid structures for technological uses. In this field, nucleic acids are used as non-biological engineering materials for nanotechnology rather than as the carriers of genetic information in living cells. Researchers in the field have created static structures such as two- and three-dimensional crystal lattices, nanotubes, polyhedra, and arbitrary shapes, as well as functional devices such as molecular machines and DNA computers. The field is beginning to be used as a tool to solve basic science problems in structural biology and biophysics, including applications in crystallography and spectroscopy for protein structure determination. Potential applications in molecular scale electronics and nanomedicine are also being investigated.The conceptual foundation for DNA nanotechnology was first laid out by Nadrian Seeman in the early 1980s, and the field began to attract widespread interest in the mid-2000s. This use of nucleic acids is enabled by their strict base pairing rules, which cause only portions of strands with complementary base sequences to bind together to form strong, rigid double helix structures. This allows for the rational design of base sequences that will selectively assemble to form complex target structures with precisely controlled nanoscale features. A number of assembly methods are used to make these structures, including tile-based structures that assemble from smaller structures, folding structures using the DNA origami method, and dynamically reconfigurable structures using strand displacement techniques. While the field's name specifically references DNA, the same principles have been used with other types of nucleic acids as well, leading to the occasional use of the alternative name nucleic acid nanotechnology.