Welcome to Mrs. Gomez-Buckley General Biology Class (Room 615)
... Transfer RNA (tRNA) picks up an amino acid tRNA attaches to mRNA matching complementary base pairs at opposite end from amino acid Amino acid is attached to other amino acids held by the ribosome to make a chain of protein When protein completely built unattached from ribosome ...
... Transfer RNA (tRNA) picks up an amino acid tRNA attaches to mRNA matching complementary base pairs at opposite end from amino acid Amino acid is attached to other amino acids held by the ribosome to make a chain of protein When protein completely built unattached from ribosome ...
Amylase structural variants, Ashkenazi trio, SV calls
... assemblies of individuals for detecting and interpreting the many types of structural variation that are refractory to highthroughput or short-read technologies. Using a single-molecule genome analysis system, the Irys® System, we produced high resolution genome maps that were assembled de novo. The ...
... assemblies of individuals for detecting and interpreting the many types of structural variation that are refractory to highthroughput or short-read technologies. Using a single-molecule genome analysis system, the Irys® System, we produced high resolution genome maps that were assembled de novo. The ...
Chapter 8: Microbial Genetics 1. Gene Expression Gene Expression
... When lactose is present w/o glucose: The lac repressor is bound by lactose and inactive, and the low glucose levels activate CAP, a transcriptional activator, which binds the CAP site & enhances binding of RNA polymerase to the promoter. • since lactose is a much more important source of energy in ...
... When lactose is present w/o glucose: The lac repressor is bound by lactose and inactive, and the low glucose levels activate CAP, a transcriptional activator, which binds the CAP site & enhances binding of RNA polymerase to the promoter. • since lactose is a much more important source of energy in ...
Gene Regulation - yayscienceclass
... Four of the many different types of human cells: They all share the same genome. What makes them different? ...
... Four of the many different types of human cells: They all share the same genome. What makes them different? ...
chapter_13_powerpointDNA_l
... All this suggests DNA uses complementary base pairing to store genetic info Human chromosome estimated to contain, on average, 140 million base pairs Number of possible nucleotide sequences ...
... All this suggests DNA uses complementary base pairing to store genetic info Human chromosome estimated to contain, on average, 140 million base pairs Number of possible nucleotide sequences ...
Section 18.1 Summary – pages 475-483
... Prions • Prions are abnormal neuron-proteins that behave like viruses, but do not carry genetic information. • Prions are thought to cause other neuron-proteins to fold themselves incorrectly, resulting in improper functioning. ...
... Prions • Prions are abnormal neuron-proteins that behave like viruses, but do not carry genetic information. • Prions are thought to cause other neuron-proteins to fold themselves incorrectly, resulting in improper functioning. ...
Gene Technology Powerpoint
... While DNA in all humans is similar there are differences DNA fingerprinting can be used to identify a child’s parents. In this example (next page) , a family consists of a mom and dad, two daughters and two sons. The parents have one daughter and one son together, one daughter is from the mother’s p ...
... While DNA in all humans is similar there are differences DNA fingerprinting can be used to identify a child’s parents. In this example (next page) , a family consists of a mom and dad, two daughters and two sons. The parents have one daughter and one son together, one daughter is from the mother’s p ...
Forensic DNA Analysis
... Single-cell sensitivity because each cell contains ~1000 mitochondria = very high contamination risk! Heteroplasmy - more than one mtDNA type manifesting in different tissues in the same individual Lower power of discrimination - maternal relatives all share the same mtDNA ...
... Single-cell sensitivity because each cell contains ~1000 mitochondria = very high contamination risk! Heteroplasmy - more than one mtDNA type manifesting in different tissues in the same individual Lower power of discrimination - maternal relatives all share the same mtDNA ...
2. Be sure that your exam has 9 pages including this cover sheet.
... Choose the best answer for the question or the best ending for each statement. Write the letter (A-E) which corresponds to the best answer on the line before the question. (2 pts each) _____1. A key point in Darwin's explanation of evolution is that A. biological structures most likely inherited are ...
... Choose the best answer for the question or the best ending for each statement. Write the letter (A-E) which corresponds to the best answer on the line before the question. (2 pts each) _____1. A key point in Darwin's explanation of evolution is that A. biological structures most likely inherited are ...
Slide 1
... • I am a livestock geneticist and therefore do not claim any expertise about game • BUT, I think we can compare notes • Genetics is genetics anyway ...
... • I am a livestock geneticist and therefore do not claim any expertise about game • BUT, I think we can compare notes • Genetics is genetics anyway ...
Replication, Transcription, Translation
... form m-, r-, and t-RNA’s. Some posttranscription processing occurs in the nucleus and some in the cytoplasm. An important part of posttranscriptional processing is the deletion of noncoding RNA segments (introns), and splicing together the coding segments (exons). ...
... form m-, r-, and t-RNA’s. Some posttranscription processing occurs in the nucleus and some in the cytoplasm. An important part of posttranscriptional processing is the deletion of noncoding RNA segments (introns), and splicing together the coding segments (exons). ...
Study Guide: Lecture 1 1. What does “GMO” stand for and what does
... 3. Explain the meaning of “genome size”, and the units sizes used to describe genome sizes. 4. Is a 758 Mb genome size a huge, average, or small genome size for a diploid plant? 5. What is “gene flow” and does it only occur with transgenic plants? 6. Why are there fewer rows of “males” than “females ...
... 3. Explain the meaning of “genome size”, and the units sizes used to describe genome sizes. 4. Is a 758 Mb genome size a huge, average, or small genome size for a diploid plant? 5. What is “gene flow” and does it only occur with transgenic plants? 6. Why are there fewer rows of “males” than “females ...
Unit 4 Review KEY File
... Above picture is translation. tRNA molecules are reading the mRNA strand to create a A.A (amino acid chain) and build a protein. B. Name the molecules I, II, III, IV in the picture above. Also, what process is occurring and where is it occurring.I=tRNA Anticodon, II=mRNA III=Amino Acids IV=tRNA C. W ...
... Above picture is translation. tRNA molecules are reading the mRNA strand to create a A.A (amino acid chain) and build a protein. B. Name the molecules I, II, III, IV in the picture above. Also, what process is occurring and where is it occurring.I=tRNA Anticodon, II=mRNA III=Amino Acids IV=tRNA C. W ...
Complex Evolutionary Dynamics of Massively Expanded
... Genomic organization of Tetranychus urticae GRs and ENaCs. Genomic distribution of CRs by family or clade: (a) clade A TuGRs, (b) clade B TuGRs, and (c) ENaCs. In each case the distribution of CRs along the genome is shown with lengths of vertical line segments corresponding to counts in a gene clus ...
... Genomic organization of Tetranychus urticae GRs and ENaCs. Genomic distribution of CRs by family or clade: (a) clade A TuGRs, (b) clade B TuGRs, and (c) ENaCs. In each case the distribution of CRs along the genome is shown with lengths of vertical line segments corresponding to counts in a gene clus ...
Building a DNA molecule
... You will be assigned an amino acid. Please note where your amino acid is located in the molecule, because at the end of the lab the whole class has to put their pieces together in the correct sequence! Figure out which DNA base triplet codes for your amino acid. If there are several possible triplet ...
... You will be assigned an amino acid. Please note where your amino acid is located in the molecule, because at the end of the lab the whole class has to put their pieces together in the correct sequence! Figure out which DNA base triplet codes for your amino acid. If there are several possible triplet ...
Macromolecules and Cell Structure
... • ‘Primordial Soup’ Theory – A separate, but complementary theory to evolution – Occurred over millions or billions of years – Organic molecules formed from the highly reducing atmosphere of early earth in an aqueous environment – The earliest cells coalesced from organic molecules by the inclusion ...
... • ‘Primordial Soup’ Theory – A separate, but complementary theory to evolution – Occurred over millions or billions of years – Organic molecules formed from the highly reducing atmosphere of early earth in an aqueous environment – The earliest cells coalesced from organic molecules by the inclusion ...
recombinant dna lab
... DNA fragments from donor cells must become part of the genetic material of living cells before the genes they contain can be activated. For example, DNA fragments may be combined with bacterial DNA so that they can later be inserted into a bacterial cell. Bacteria often contain small circular DNA mo ...
... DNA fragments from donor cells must become part of the genetic material of living cells before the genes they contain can be activated. For example, DNA fragments may be combined with bacterial DNA so that they can later be inserted into a bacterial cell. Bacteria often contain small circular DNA mo ...
Genomics - WHAT IF server
... Training for a completely new genome For all already discussed methods we need some initial knowledge about genes in the genome (DNA statistics, minimal ORFs length etc.) – from known genes or their very close orthologs When we have no information at all, we use an iterative process with initial pa ...
... Training for a completely new genome For all already discussed methods we need some initial knowledge about genes in the genome (DNA statistics, minimal ORFs length etc.) – from known genes or their very close orthologs When we have no information at all, we use an iterative process with initial pa ...
Central Dogma PPT
... What Is the Code of Life? • It is the Genetic Code, which is the set of “messages” that are “translated” by ribosomes into proteins that define ...
... What Is the Code of Life? • It is the Genetic Code, which is the set of “messages” that are “translated” by ribosomes into proteins that define ...
Jan 19
... 2) “Restriction mapping” 3) Southern analysis : DNA 4) Northern analysis: RNA • tells size • tells which tissues or conditions it is expressed in • intensity tells how abundant it is ...
... 2) “Restriction mapping” 3) Southern analysis : DNA 4) Northern analysis: RNA • tells size • tells which tissues or conditions it is expressed in • intensity tells how abundant it is ...