DNA - hdueck

... Thymine (DNA) and Uracil (RNA)  Thymine versus Uracil  Thymine in DNA is replaced by Uracil ...

Day 58 - upwardsapbio

... incoming strand and template strand can be about 1 in 100,000. This shows the precision of DNA polymerase, which is the enzyme that goes back and proofreads the DNA strand as it is being made. One method of fixing errors that have bypassed DNA polymerase is called nucleotide excision repair. In this ...

Bacterial Genetics Summary

... 1. Overview of Process a. Two parental strands uncoil and unzipper b. Replication starts at 3' end of parental strand c. Complementary deoxyribonucleotides brought in (1) hydrogen bond to complementary base (2) covalent bond to adjacent nucleotide on growing strand d. When finished, have two molecul ...

DNA and genetic information

... • 28 = 256 unique bytes are possible • This is a large enough set of symbols to represent characters in language ...

The Structure of DNA

...  DNA - the genetic material required for the ...

DNA Replication Practice Worksheet

... this information on to the daughter cells. Before a cell can reproduce, it must first replicate, or make a copy of, its DNA. Where DNA replication occurs depends upon whether the cells is a prokaryote or a eukaryote (see the RNA sidebar on the previous page for more about the types of cells). DNA re ...

No Slide Title

... • these factors segregate during meiosis, independently ...

Slide 1

... B) Makes the amino acids as they are needed. C) Produces codons to match the correct anticodons. D) Converts DNA to RNA A ...

Review Questions

... DNA, the recipe for making proteins, never leaves the nucleus (nucleoid region in bacteria). Yet all the protein-making machinery is located out in the cytoplasm. So how does the information get to the cytoplasm? DNA is transcribed into messenger RNA. 2. What is a transcript? A transcript is not a c ...

SBI4U: Molecular Genetics Unit Review

... 1. What is the difference between a nucleotide and a nucleic acid? Nucleic acids are made up of nucleotide subunits 2. What are the three components of nucleotides? Sugar (ribose or deoxyribose), phosphate, nitrogenous base (A,T,C,G) 3. What is the difference between the 5’ end of nucleic acids and ...

Transcription

... RNA that is wrapped with proteins to form ribosomes. Purpose Synthesis of primary protein structure ...

Genetics

... Meiosis Define the following terms Gametes: Haploid: ...

lecture2

... A palindrome is a sequence of letters and/or words, that reads the same forwards and backwards. "able was I ere I saw elba" is a palindrome. Palindromes also occur in DNA. There are two types. 1. Palindromes that occur on opposite strands of the same section of DNA helix. 5' GGCC 3' 3' CCGG 5' This ...

bioknowledgy note pkt - Peoria Public Schools

... Understandings, Applications and Skills (This is what you maybe assessed on) Statement ...

2. Molecular Biology (Core) – 2.6 Structure of DNA and RNA Name

... Understandings, Applications and Skills (This is what you maybe assessed on) Statement ...

Problem Set 1A

... the chromosomes are duplicated at this time, and thus contain sister chromatids. (For the exam you should be able to do this for deletions and duplications too.) ...

L26_ABPG2014

... from a distance, without any proteins or other biological molecules aiding the process, according to new research. This discovery could explain how similar genes find each other and group together in order to perform key processes involved in the evolution of species. •Although the capacity for sing ...

DNA Replication

...  The tips of chromosomes are known as telomeres ...

DNA Review (study guide)

... 1. A nucleotide is made of three parts: a ___________________ group, a sugar called __________________, and a nitrogen _____________________ 2. In a single strand of DNA, the phosphate group binds to the __________________ of the next group. 3. Base pairing rule states that the DNA of any species co ...

Biotechnology Part 3 Outline

... 2) All living organisms, and some viruses, have DNA as the inheritable form of information transfer. I. ...

6 Day 9 Biotechnology Part 3 Outline

... 2) All living organisms, and some viruses, have DNA as the inheritable form of information transfer. I. ...

Pierce chapter 10

... Genetic implications • Watson and Crick indicated structure revealed mode of replication – H bonds break and each strand serves as a template for new strand due to complementary base pairing ...

Chapter 29 DNA as the Genetic Material Recombination of DNA

... • Resolution can produce either a “patch recombinant” heteroduplex, or a “splice recombinant heteroduplex”. ...

Chapter 12 Notes

... - The nucleotides in a strand of DNA are joined by _____________ formed between the ___________ and __________________ groups. - The bases stick out ___________________ from the nucleotide chain. - The nucleotides can be joined together _____________________, any sequence of bases is possible Solvin ...

DNA Notes How was the DNA Model Formed? 1) In the 1950`s a

... 2) Soon after a young chemist named Rosalind Franklin created images of DNA using a technique known as X-ray diffraction. Franklin used X rays to create images on film and found that the general shape of DNA is a spiral shape 3) In 1953 ___James_ ___Watson__, an American biochemist, and ___Francis__ ...

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Holliday junction

A Holliday junction is a branched nucleic acid structure that contains four double-stranded arms joined together. These arms may adopt one of several conformations depending on buffer salt concentrations and the sequence of nucleobases closest to the junction. The structure is named after the molecular biologist Robin Holliday, who proposed its existence in 1964.In biology, Holliday junctions are a key intermediate in many types of genetic recombination, as well as in double-strand break repair. These junctions usually have a symmetrical sequence and are thus mobile, meaning that the four individual arms may slide though the junction in a specific pattern that largely preserves base pairing. Additionally, four-arm junctions similar to Holliday junctions appear in some functional RNA molecules.Immobile Holliday junctions, with asymmetrical sequences that lock the strands in a specific position, were artificially created by scientists to study their structure as a model for natural Holliday junctions. These junctions also later found use as basic structural building blocks in DNA nanotechnology, where multiple Holliday junctions can be combined into specific designed geometries that provide molecules with a high degree of structural rigidity.

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Holliday junction