Learning Targets

... 9. Hereditary code consists of 64 different base sequences and is “read” in groups of three (codons). What is a codon, and what does it code for? 10. Using a model (create one), explain the steps of DNA replication in cells and hereditary coding. 11. What are the roles of the DNA, mRNA, tRNA, rRNA, ...

DNA & PROTEIN SYNTHESIS

... (nucleus) & the ribosomes (cytoplasm). 2. Structure a. Ribose (Sugar) b. Single-stranded, not double. c. Thymine is replaced by URACIL. - Adenine binds with Uracil. d. RNA can be found inside and outside of the nucleus (DNA is always inside!) ...

RNA - Ms Kim`s Biology Class

... 8. Why is DNA replication called "semi-conservative"? __________________________________________ 9. The two sides of the DNA helix are held together by ________________________ 10. What are the DNA base pairing rules? What are the RNA base pairing rules? DNA ______________________ RNA ______________ ...

Transcription Factors

... – diffusible proteins – act at numerous sites on many chromosomes – Influence transcription by interacting with other proteins or segments of DNA • “Upstream” = being 5’ to the start site – Negative numbers of bases ...

a14DNAGenMat

... DNA and RNA Structure • DNA and RNA are nucleic acids. – They consist of chemical units called nucleotides. – The nucleotides are joined by a sugar-phosphate backbone. ...

2 Types of Selective Breeding

... For thousands of years people have tried to produce __________________________ with desirable traits _________ methods that people use to develop organisms with desirable traits: 1) Selective Breeding – a process of selecting a few organisms with _______________ to serve as parents of the __________ ...

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Marktübersicht PCR-Kits

... One Weiss unit is defined as the amount of enzyme ...

13.3 RNA and Gene Expression

... the instructions for making proteins from the DNA (in the nucleus) to the ribosomes in the cytoplasm of the cell. Ribosomal (rRNA) – helps to assemble amino acids to make proteins on the ribosomes. ...

GBE 335 MOLECULAR GENETICS

... techniques for nucleic acid and protein analysis Describe experiments to address biological questions and select the appropriate techniques to use for these experiments Be able to communicate clearly: written communication and oral communication Be able to collaborate with others (team-working) Be a ...

7.3 Transcription (AHL)

... 1. Initiation: After the RNA polymerase binds to the promoter, the DNA strands unwind and the enzyme initiates RNA synthesis at the start point on the template strand. 2. Elongation: The polymerase moves downstream unwinding the DNA and elongates the RNA transcript 5’→3’. In the way of transcription ...

Chapter 9 DNA: The Genetic Material

... 1. Single stranded molecule. (DNA is double) 2. Ribose sugar (DNA has deoxyribose sugar.) 3. Uracil (U) instead of thymine (T). Protein Synthesis / Gene Expression (steps involved in making a protein). 1. Transcription - instructions are transferred (rewritten) from DNA to a molecule of mRNA (messen ...

DNA: Structure and Function

... Watson & Crick Model • DNA is composed of 2 chains of nucleotides that form a double helix shape • The two strands are antiparallel. • The backbone of the DNA molecule is composed of alternating phosphate groups and sugars • The complimentary bases form hydrogen bonds between the strands • A is c ...

Sources of DNA

asdfs - local.brookings.k12.sd.us

PowerPoint Presentation - No Slide Title

... mostly from replicative transposition. 10 - 15 % of the genome is made up of introns and other transcribed spacers. 5 to 10% of the genome is regulatory sequence. About 5% of the genome is pseudogene sequence. ...

Microbial Genetics

... Genetic Code is Degenerative Genetic Code is Universal ...

Notes 4-4

... 1. Protein Synthesis – The cell uses info. from a gene on a chromosome to produce a specific protein.  Occurs on ribosomes in cytoplasm. 2. Role of RNA – Messenger – carry genetic code from nucleus into cytoplasm. 3. Types of RNA –  Messenger RNA – copies code from DNA ...

Bio 1 Unit Objectives Protein Synthesis Readings

... Exploring Life: Chapter 11 Online Activities ...

Changes in DNA can produce variation

... • There is a large number of DNA bases in any organism that need to be copied • Errors can occur when DNA is copied or affected by environment – UV radiation – X-rays – Toxins ...

Bio EOC Cram

... more often than do yellow grasshoppers in this environment. ...

Lecture 16

... fertilizers. Plants need nitrogen in a form that can be biologically converted into proteins or DNA (see the N in the peptide bond, Lect. 15, Slides 15,19 and N in the base pairs of DNA, Slide 20). Only a few plants can fix N2 from air with the help of symbiotic bacteria, all others need fertilizers ...

Jeopardy, cells part 2 review

... Which of the following may alter mitosis and cause mutations of DNA. A)medications B) chemical exposture C) radiation D) all of the above ...

Multiple Choice

... a. each with two new strands. b. one with two new strands and the other with two original strands. c. each with one new strand and one original strand. d. each with two original strands. ____ 4. During mitosis, the a. DNA molecules unwind. b. histones and DNA molecules separate. c. DNA molecules bec ...

(RNA and Protein Synthesis) Section 11.4 Questions

< 1 ... 977 978 979 980 981 982 983 984 985 ... 1026 >

Deoxyribozyme

Deoxyribozymes, also called DNA enzymes, DNAzymes, or catalytic DNA, are DNA oligonucleotides that are capable of catalyzing specific chemical reactions, similar to the action of other biological enzymes, such as proteins or ribozymes (enzymes composed of RNA).However, in contrast to the abundance of protein enzymes in biological systems and the discovery of biological ribozymes in the 1980s,there are no known naturally occurring deoxyribozymes.Deoxyribozymes should not be confused with DNA aptamers which are oligonucleotides that selectively bind a target ligand, but do not catalyze a subsequent chemical reaction.With the exception of ribozymes, nucleic acid molecules within cells primarily serve as storage of genetic information due to its ability to form complementary base pairs, which allows for high-fidelity copying and transfer of genetic information. In contrast, nucleic acid molecules are more limited in their catalytic ability, in comparison to protein enzymes, to just three types of interactions: hydrogen bonding, pi stacking, and metal-ion coordination. This is due to the limited number of functional groups of the nucleic acid monomers: while proteins are built from up to twenty different amino acids with various functional groups, nucleic acids are built from just four chemically similar nucleobases. In addition, DNA lacks the 2'-hydroxyl group found in RNA which limits the catalytic competency of deoxyribozymes even in comparison to ribozymes.In addition to the inherent inferiority of DNA catalytic activity, the apparent lack of naturally occurring deoxyribozymes may also be due to the primarily double-stranded conformation of DNA in biological systems which would limit its physical flexibility and ability to form tertiary structures, and so would drastically limit the ability of double-stranded DNA to act as a catalyst; though there are a few known instances of biological single-stranded DNA such as multicopy single-stranded DNA (msDNA), certain viral genomes, and the replication fork formed during DNA replication. Further structural differences between DNA and RNA may also play a role in the lack of biological deoxyribozymes, such as the additional methyl group of the DNA base thymidine compared to the RNA base uracil or the tendency of DNA to adopt the B-form helix while RNA tends to adopt the A-form helix. However, it has also been shown that DNA can form structures that RNA cannot, which suggests that, though there are differences in structures that each can form, neither is inherently more or less catalytic due to their possible structural motifs.

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Deoxyribozyme