Chapter 12 - SCA Moodle

... • Hydrogen bonds could form between certain nitrogen bases and provide enough force to hold the two strands together • Hydrogen bonds could only form between certain base pairs adenine and thymine and guanine and cytosine • This principal is called Base pairing • This explains Chargaff’s Rule ...

Unit 4

... Prokaryotic – the translation can begin almost instantaneously 13. Describe some biological functions of introns and gene splicing. Introns are intervening sequences that are non-coding. Gene splicing is when they are put together. 14. Explain why base-pair insertions or deletions usually have a gr ...

Teacher`s Notes

... proteins called histones to form a higher order structure called a chromosome. Chromosomes are contained within the nucleus of each cell. When unraveled, a molecule of DNA looks like a twisted ladder, called a doublehelix structure. Watson and Crick used special photographs taken by Rosalind Frankli ...

Quiz 6 Molecular Biology

... 4) Which of the following nucleotide bases always bind to each other in DNA? a. thymine and cytosine (T-C) b. adenine and cytosine (A-C) c. thymine and guanine (T-G) d. cytosine and guanine (C-G) e. adenine and guanine (A-G) 5) The sequence of _____ in a strand of mRNA determines the order of _____ ...

DNA and Genes - Wayne County School District

... The nucleotides that make up DNA deoxyribose and one contain the sugar ___________ of four different nitrogen bases: adenine (A), thymine (T), _________________________________ guanine (G), or cytosine (C). _________________________________ ...

CH16-DNATheGeneticMaterial

... produce the 2-nm diameter indicated by the X-ray data. ...

2013

... Glu-Gly-Leu-Ser-Leu-Ser-Lys (c) Suppose the other (complementary) strand is used as a template for transcription. What is the amino acid sequence of the resulting peptide, again starting from the 5' end and using only the first reading frame? The codons translate to Leu-Stop-Stop. No peptide would b ...

DNA & RNA

... Gel Electrophoresis: Process that involves using electric current to separate certain biological molecules by size. We use this to see DNA fragments to create a DNA fingerprint - DNA fingerprints have 2 major uses: 1.Solve crimes 2.Figuring out “who’s the baby’s daddy” ...

Transcription Notes

... Copy of information in DNA that is brought to the ribosome and translated into protein by tRNA & rRNA. _________________________________________ RNA: rRNA Most of the RNA in cells is associated with structures known as ribosomes, the protein factories of the cells. It is the site of translation wher ...

Extracting DNA Lab – S

... DNA is found in every living organism. It is among the largest molecules known today. To obtain DNA from any organism, it must first be released from a cell. Once in solution, scientists use specific techniques to spool the DNA fragments together, as observed by Oswald Avery, who once wrote in his s ...

DNA, RNA, and Protein Synthesis

... bacteria. See pg. 289, Fig. 12-3 Radioactive Markers – used by Hershey & Chase to determine which part of the virus (protein coat or the DNA coat) entered the infected cell. As a result, they could learn whether genes were made of protein or DNA. 32P & 35S – Phosphorous 32 is not often found in prot ...

Structure of Life

... _____13. This enzyme moves along a RNA strand matching up nucleotide bases _____14. This theory determines that a C bonds with a G, and an A to a T _____15. This enzyme moves along a DNA strand matching up nucleotide bases ...

8-DNA

... A. synthesis can proceed uninterrupted (as a leading strand) in only one direction. B. each new DNA molecule contains one preexisting strand and one new strand. C. after each round of DNA replication, the original DNA double helix is still intact. D. the original base sequence is conserved in the da ...

Multiple Choice. ______1. Which of the following molecules

... ______45. RNA differs from DNA in that RNA a. is single-stranded, whereas DNA is double-stranded. b. is an intermediate in information transfer, whereas DNA encodes hereditary information. c. contains ribose, whereas DNA contains deoxyribose. d. All of the above ______46. Single-stranded RNA can fol ...

Plasmid

...  They are not essential for the bacterium but may give it a selective ...

DNA Replication

... 1. Double stranded DNA that has been labeled with radioactive 14C is used as the template for replication. Replication is carried out in a medium containing only unlabeled nucleotides. After two rounds of replication, what percent of double stranded DNA molecules are radioactive? A) 25% B) 50% ...

quiz - OpenStudy

... free DNA nucleotides tRNA anticodons RNA codons free RNA nucleotides ...

Real-time monitoring of branched rolling

... given that a more straightforward and seemingly simpler design employing the triplex-forming DNA beacons [19] failed. In our pilot study, we could not Wnd the conditions where both eYcient branched replication of a DNA minicircle and sensitive Xuorescent detection of corresponding amplicons take pla ...

Sos response in E. coli

... damages its DNA. For example: Radiation or some type of mutagen that will damage the bacterial DNA.  After damage occurs lesions will appear damaging sections of the DNA. ...

File

... 5) Draw and explain the steps of DNA replication. Be sure to mention all enzymes/ proteins. Label each end of the DNA with either 5’ or 3’ to show the directions of replication 6) What causes our somatic cell DNA to break down? How does that impact future cell division? 7) How do germ cells prevent ...

DNA and its Structure

... experiment determined that DNA is the genetic material  Video clip ...

Biochemistry ± DNA Chemistry and Analysis DNA o Adenosine

... Endonuclease: eat the interior RIDSRO\QXFOHRWLGHVSHFLILFIRU¶RU¶VLGHRISKRVphodiester bond x Can cut ssDNA or dsDNA depending on nuclease o Restriction Endonuclease: recog specific base sequence in foreign DNA for degradation & cleave both strands Found in bacteria and not in eukaryot ...

Document

... DNA replication and protein synthesis online simulation • http://ri-itest.portal.concord.org/preview/ molecular workbench Select "Biology: Activities", then "DNA to proteins". You do not need to have logged in with user name and password. ...

Periodicity in DNA primary structure is defined by secondary

... There is now a strong evidence suggesting that disposition of nucleosomes on DNA is nonrandom (1-3). The nature of such a specificity is still unclear. An interesting attempt to explain this phenomenom has been made recently by Trifonov and Sussman (4,5). They found, that in the chroma tin DNA nucle ...

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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.

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DNA nanotechnology