Tandem repeats - Trimble County Schools
... itself about 1000 times – Remember, you inherit 1 chromosome of each pair from each parent ...
... itself about 1000 times – Remember, you inherit 1 chromosome of each pair from each parent ...
Rosalind Franklin
... Corrected Watson and Crick on their original model Her data gave full dimensions of the unit cell, its length, width and angles Provided the basic scientific evidence for the structure of the nucleic acid, DNA ...
... Corrected Watson and Crick on their original model Her data gave full dimensions of the unit cell, its length, width and angles Provided the basic scientific evidence for the structure of the nucleic acid, DNA ...
molecular biology review sheet
... Section 2 – Nucleic acids store information in their sequences of chemical units. Section 3 – DNA replication is the molecular mechanism of inheritance. Section 4 – A gene provides the information for making a specific protein. Section 5 – There are two main steps from gene to protein. Section 6 – M ...
... Section 2 – Nucleic acids store information in their sequences of chemical units. Section 3 – DNA replication is the molecular mechanism of inheritance. Section 4 – A gene provides the information for making a specific protein. Section 5 – There are two main steps from gene to protein. Section 6 – M ...
13.2 Notes - Trimble County Schools
... itself about 1000 times – Remember, you inherit 1 chromosome of each pair from each parent ...
... itself about 1000 times – Remember, you inherit 1 chromosome of each pair from each parent ...
Meiosis
... 2) Primase – starts replication 3) Polymerase – matches A-T, C-G to make new strands 4) Ligase – glues lagging strand fragments together ...
... 2) Primase – starts replication 3) Polymerase – matches A-T, C-G to make new strands 4) Ligase – glues lagging strand fragments together ...
repair - Molecular and Cell Biology
... A G G C C T C TT T C A A G G C C T C T=T C A T C C G GA GAA G T TCCGGAGA AGT DNA repair machinery called out: light-dependent repair (accurate) excision repair (error prone) (pity the poor shoe salesmen of yore) ...
... A G G C C T C TT T C A A G G C C T C T=T C A T C C G GA GAA G T TCCGGAGA AGT DNA repair machinery called out: light-dependent repair (accurate) excision repair (error prone) (pity the poor shoe salesmen of yore) ...
Chapter 16 PPT
... Parental strand Removal of primers and replacement with DNA where a 3 end is available ...
... Parental strand Removal of primers and replacement with DNA where a 3 end is available ...
14.1 Structure of Ribonucleic Acid (RNA)
... bases are known as CODONS. • The triplet code is referred to as degenerate. – this is because most amino acids have more than one ...
... bases are known as CODONS. • The triplet code is referred to as degenerate. – this is because most amino acids have more than one ...
Lecture 6 pdf - Institute for Behavioral Genetics
... - how the information coded into DNA is used 1. transcription DNA code is transcribed to form mRNA molecule RNA polymerase 2. RNA processing introns spliced out leaving exons alternative splicing (+1/2 of all genes) ...
... - how the information coded into DNA is used 1. transcription DNA code is transcribed to form mRNA molecule RNA polymerase 2. RNA processing introns spliced out leaving exons alternative splicing (+1/2 of all genes) ...
statgen2
... •Theophrastus proposed that male flowers caused female flowers to ripen; •Hippocrates speculated that "seeds" were produced by various body parts and transmitted to offspring at the time of conception. •Aristotle thought that male and female semen mixed at conception. •Aeschylus, in 458 BC, proposed ...
... •Theophrastus proposed that male flowers caused female flowers to ripen; •Hippocrates speculated that "seeds" were produced by various body parts and transmitted to offspring at the time of conception. •Aristotle thought that male and female semen mixed at conception. •Aeschylus, in 458 BC, proposed ...
Evolution and Genetic Engineering Keystone Vocabulary
... 15. A sequence of nucleotides composing a segment of DNA that provides a blueprint for a specific heredity trait. 16. The process in which a nucleotide sequence of a gene is used to make a functional product such as protein or RNA. 17. A natural process in which a nucleic acid molecule (usually DNA ...
... 15. A sequence of nucleotides composing a segment of DNA that provides a blueprint for a specific heredity trait. 16. The process in which a nucleotide sequence of a gene is used to make a functional product such as protein or RNA. 17. A natural process in which a nucleic acid molecule (usually DNA ...
Second Semester Final Exam Study Guide: Students will be
... 9. Explain what stem cells are and what they can become 10. Construct and complete a Punnett square for single trait (monohybrid) crosses. 11. Construct and complete a Punnett square for double trait (dihybrid) crosses. 12. Determine predicted genotypic and phenotypic ratios from monohybrid and dihy ...
... 9. Explain what stem cells are and what they can become 10. Construct and complete a Punnett square for single trait (monohybrid) crosses. 11. Construct and complete a Punnett square for double trait (dihybrid) crosses. 12. Determine predicted genotypic and phenotypic ratios from monohybrid and dihy ...
DNA-RNA Review
... replication Using DNA code to transcription make an RNA = ___________________ Using an RNA message ...
... replication Using DNA code to transcription make an RNA = ___________________ Using an RNA message ...
File
... 2) Detecting mutations- Comparing one persons DNA to the DNA of the person with the mutation ...
... 2) Detecting mutations- Comparing one persons DNA to the DNA of the person with the mutation ...
DNA - PBworks
... • Occur in approximately one out of every 10,000 base pairs. With cellular proofing mechanisms, the final error rate is as low as one in a billion. • Mutations occur because of errors when DNA is copied or mutagens (radioactivity). ...
... • Occur in approximately one out of every 10,000 base pairs. With cellular proofing mechanisms, the final error rate is as low as one in a billion. • Mutations occur because of errors when DNA is copied or mutagens (radioactivity). ...
(PCR) and Gel Electrophoresis Powerpoint
... – Can be used to tentatively identify a gene because we know the number of nucleotides in many genes ...
... – Can be used to tentatively identify a gene because we know the number of nucleotides in many genes ...
Chapter 12 Section 1
... phosphorus atom bonded with 4 oxygen atoms make up the backbone Nitrogenous bases make up the rungs and contain nitrogen and carbon atoms. It is a base which will accept hydrogen ions. ...
... phosphorus atom bonded with 4 oxygen atoms make up the backbone Nitrogenous bases make up the rungs and contain nitrogen and carbon atoms. It is a base which will accept hydrogen ions. ...
File
... tRNA molecule leaves the ribosome 6 – when the ribosome reads a stop codon, the finished protein is released from the ribosome 6. List the 3 types of RNA and what role they each have in protein synthesis. messenger RNA (mRNA) – copies the code (message) from the DNA and takes it to the ribosome wher ...
... tRNA molecule leaves the ribosome 6 – when the ribosome reads a stop codon, the finished protein is released from the ribosome 6. List the 3 types of RNA and what role they each have in protein synthesis. messenger RNA (mRNA) – copies the code (message) from the DNA and takes it to the ribosome wher ...
RNA
... rRNA- is a single strand in globular form, rRNA binds with proteins to make up ribosomes which are then used to make the proteins ...
... rRNA- is a single strand in globular form, rRNA binds with proteins to make up ribosomes which are then used to make the proteins ...
Replisome
The replisome is a complex molecular machine that carries out replication of DNA. The replisome first unwinds double stranded DNA into two single strands. For each of the resulting single strands, a new complementary sequence of DNA is synthesized. The net result is formation of two new double stranded DNA sequences that are exact copies of the original double stranded DNA sequence.In terms of structure, the replisome is composed of two replicative polymerase complexes, one of which synthesizes the leading strand, while the other synthesizes the lagging strand. The replisome is composed of a number of proteins including helicase, RFC, PCNA, gyrase/topoisomerase, SSB/RPA, primase, DNA polymerase I, RNAse H, and ligase.