Supplementary Report 18 August 2005
... Gene filter: We started with 22,283 probe sets from U133A and 22,645 from U133B, and excluded all Affymetrix control genes (68 from each chip) and 100 housekeeping genes from U133B. This left us with 44,792 probe sets. We then included only genes that ...
... Gene filter: We started with 22,283 probe sets from U133A and 22,645 from U133B, and excluded all Affymetrix control genes (68 from each chip) and 100 housekeeping genes from U133B. This left us with 44,792 probe sets. We then included only genes that ...
“Algorithms for genomes” 2b Central Dogma Transcription start and
... DNA winds around histone proteins (nucleosomes). ...
... DNA winds around histone proteins (nucleosomes). ...
Spring Final Review
... onto different chromatids during chromosomal crossover, and are therefore said to be genetically linked. In other words, the nearer two genes are on a chromosome, the lower is the chance of a swap occurring between them, and the more likely they are to be inherited together. What factors play a role ...
... onto different chromatids during chromosomal crossover, and are therefore said to be genetically linked. In other words, the nearer two genes are on a chromosome, the lower is the chance of a swap occurring between them, and the more likely they are to be inherited together. What factors play a role ...
Lesson Plan - Beyond Benign
... 1. Cancer is uncontrolled cell growth where the cells divide at an abnormally accelerated rate. A benign tumor is one that stays within the mass and is operable by surgery. Metastasis is a process where the cancer cells invade and destroy other tissues in the body. 2. Tumor suppressors, such as p53, ...
... 1. Cancer is uncontrolled cell growth where the cells divide at an abnormally accelerated rate. A benign tumor is one that stays within the mass and is operable by surgery. Metastasis is a process where the cancer cells invade and destroy other tissues in the body. 2. Tumor suppressors, such as p53, ...
Chapter 16-17 review sheet
... 5. Explain why the ends of chromosomes get shorter with each replication. 6. Describe the role of telomeres in DNA. Why do we need these repeats on the ends of our chromosomes? Why must cancer activate its telomerase genes? In what other cell type(s) do we find telomerase? 7. Make sure you can trans ...
... 5. Explain why the ends of chromosomes get shorter with each replication. 6. Describe the role of telomeres in DNA. Why do we need these repeats on the ends of our chromosomes? Why must cancer activate its telomerase genes? In what other cell type(s) do we find telomerase? 7. Make sure you can trans ...
Yeast, Flies, Worms, and Fish
... Model organisms provide researchers with a unique the worm by mutation of its orthologue of the humethod of placing genes within a functional path- man gene PRESENILIN. The effects of the mutaway — the so-called modifier screen.9,10 This meth- tion are reversed by overexpression in the worm of od in ...
... Model organisms provide researchers with a unique the worm by mutation of its orthologue of the humethod of placing genes within a functional path- man gene PRESENILIN. The effects of the mutaway — the so-called modifier screen.9,10 This meth- tion are reversed by overexpression in the worm of od in ...
Transcription and Translation Exercise
... 7. The allele of the gene above is dominant and codes for red kernel pigment (it is designated as R). Another allele of this gene, the r allele (which is recessive), codes for white kernel pigment and is the result of a mutation in the R allele. In the r allele, the second nucleotide (base) in the s ...
... 7. The allele of the gene above is dominant and codes for red kernel pigment (it is designated as R). Another allele of this gene, the r allele (which is recessive), codes for white kernel pigment and is the result of a mutation in the R allele. In the r allele, the second nucleotide (base) in the s ...
4 Jargon buster terms to learn sex and the sea
... Competition The fight for resources that are in limited supply by plants and animals in a habitat. This can be within the same population (the same species) or the same community (between different species) ...
... Competition The fight for resources that are in limited supply by plants and animals in a habitat. This can be within the same population (the same species) or the same community (between different species) ...
Asexual vs. Sexual Reproduction
... Compare and contrast the processes of asexual and sexual reproduction, including the type and number of cells involved (one body cell in asexual, two sex cells in sexual), and the number of gene sets (body cell has 2 sets, sex cells have 1 set each) passed from parent(s) to offspring. (3.3.A.a) ...
... Compare and contrast the processes of asexual and sexual reproduction, including the type and number of cells involved (one body cell in asexual, two sex cells in sexual), and the number of gene sets (body cell has 2 sets, sex cells have 1 set each) passed from parent(s) to offspring. (3.3.A.a) ...
Reverse Transcription PCR (RT-PCR)
... organisms has been sequenced (as is the case with arabidopsis), then the exact nucleotide sequences of these areas is known. • From the sequence information primers can be designed and the gene promoter fragment can be amplified by the polymerase chain reaction (PCR). ...
... organisms has been sequenced (as is the case with arabidopsis), then the exact nucleotide sequences of these areas is known. • From the sequence information primers can be designed and the gene promoter fragment can be amplified by the polymerase chain reaction (PCR). ...
Meiosis Take Home Test This is due Monday before the tardy bell
... This is due Monday before the tardy bell, any late tests will receive a 50% point deduction! Multiple Choice Identify the letter of the choice that best completes the statement or answers the question. ____ ...
... This is due Monday before the tardy bell, any late tests will receive a 50% point deduction! Multiple Choice Identify the letter of the choice that best completes the statement or answers the question. ____ ...
cp_G_Rabut_17122014
... example, many cancers are caused by errors that occur while our genetic material is being copied. Similarly, incorrect folding of some neuronal proteins leads to the formation of toxic aggregates that disrupt nervous system function and cause neurodegenerative diseases, such as Alzheimer’s disease o ...
... example, many cancers are caused by errors that occur while our genetic material is being copied. Similarly, incorrect folding of some neuronal proteins leads to the formation of toxic aggregates that disrupt nervous system function and cause neurodegenerative diseases, such as Alzheimer’s disease o ...
Hormone
... • Protein kinase: an enzyme that transfers phosphate groups from ATP to a protein – Usually phosphorylate either serine, threonine or tyrosine residues – Abundant relay molecules in signal transduction cascades – Often phosphorylate each other ...
... • Protein kinase: an enzyme that transfers phosphate groups from ATP to a protein – Usually phosphorylate either serine, threonine or tyrosine residues – Abundant relay molecules in signal transduction cascades – Often phosphorylate each other ...
Microarrays
... metabolizers while others are practically non-metabolizers, while most are somewhere in the middle…regulates efficacy of medicine, toxic effects of medicine, ...
... metabolizers while others are practically non-metabolizers, while most are somewhere in the middle…regulates efficacy of medicine, toxic effects of medicine, ...
5.3 Cell and Inheritance
... Key concept- Chromosomes are made up of many genes joined together like beads on a string. Each gene controls a trait Genes are lined up in the same order on both chromosomes ...
... Key concept- Chromosomes are made up of many genes joined together like beads on a string. Each gene controls a trait Genes are lined up in the same order on both chromosomes ...
Intor to Genetics n Meiosis
... • Phenotype – the way an organism “looks”. • Genotype – the actual gene combination an organism carries. • Homozygous – two alleles for a trait are the same. • Heterozygous – two alleles for a trait are ...
... • Phenotype – the way an organism “looks”. • Genotype – the actual gene combination an organism carries. • Homozygous – two alleles for a trait are the same. • Heterozygous – two alleles for a trait are ...
Sickle Cell PPT - Dr. Annette M. Parrott
... about 120 days. Sickled red cells are more fragile than normal red cells and live for less than 60 days. The body cannot make red cells as fast as the sickle cells are being broken down. As a result the body has fewer red cells and less hemoglobin than normal, and this we call anemia. ...
... about 120 days. Sickled red cells are more fragile than normal red cells and live for less than 60 days. The body cannot make red cells as fast as the sickle cells are being broken down. As a result the body has fewer red cells and less hemoglobin than normal, and this we call anemia. ...
Probability
... process by which an offspring cell or organism acquires or becomes proposed to the characteristics of its parent cell or organism. ...
... process by which an offspring cell or organism acquires or becomes proposed to the characteristics of its parent cell or organism. ...
Meiosis
... • Collect sample of cells from amniotic fluid / or blood cell if already born • Centrifuge cells to separate them • Put cells in hypotonic solution to make them swell up and then centrifuge them again to separate the one that are swollen. • Stain and examine cells and take a picture of the chromosom ...
... • Collect sample of cells from amniotic fluid / or blood cell if already born • Centrifuge cells to separate them • Put cells in hypotonic solution to make them swell up and then centrifuge them again to separate the one that are swollen. • Stain and examine cells and take a picture of the chromosom ...
BIOTECHNOLOGY AND GENETIC ENGINEERING
... -(HGP)sequence all the base pairs in the human genome (2-3 billion pairs) ...
... -(HGP)sequence all the base pairs in the human genome (2-3 billion pairs) ...
Nitric Oxide
... • These Cytokines in turn activate surrounding Astrocytes, which exacerbate the inflammation with the production of Neurotoxic Mediators such as iNOS. • The resultant NO and Peroxynitrite ultimately damages local neurons and contributes to the Neurodegeneration observed in AD ...
... • These Cytokines in turn activate surrounding Astrocytes, which exacerbate the inflammation with the production of Neurotoxic Mediators such as iNOS. • The resultant NO and Peroxynitrite ultimately damages local neurons and contributes to the Neurodegeneration observed in AD ...