DNA Technology
... • Almost all DNA between humans is identical (99.9%), except in non-protein coding sites called microsatellite regions • Where we look when comparing DNA to solve crimes or for paternity ...
... • Almost all DNA between humans is identical (99.9%), except in non-protein coding sites called microsatellite regions • Where we look when comparing DNA to solve crimes or for paternity ...
Lecture 3. MUTATIONS and DNA REPARATION A. Mutations have
... Excision repair system (dark repair) – corrects all dimers and deamination of cytosine. The excision repair system requires: ...
... Excision repair system (dark repair) – corrects all dimers and deamination of cytosine. The excision repair system requires: ...
Unit 7a * Structure of DNA
... Watson and Crick’s discovery built on the work of Rosalind Franklin and Erwin Chargaff. – Franklin’s x-ray images suggested that DNA was a double helix of even width. – Chargaff’s rules stated that A=T and C=G. ...
... Watson and Crick’s discovery built on the work of Rosalind Franklin and Erwin Chargaff. – Franklin’s x-ray images suggested that DNA was a double helix of even width. – Chargaff’s rules stated that A=T and C=G. ...
DNA- Experiments and People
... 1st to suggest genes dictate phenotypes through enzymes that catalyze specific chemical reactions Postulated that the symptoms of an inherited disease are due to inability to make a specific enzyme Coined term “inborn errors of metabolism” to describe such diseases ALCAPTONURIA- “black urine” diseas ...
... 1st to suggest genes dictate phenotypes through enzymes that catalyze specific chemical reactions Postulated that the symptoms of an inherited disease are due to inability to make a specific enzyme Coined term “inborn errors of metabolism” to describe such diseases ALCAPTONURIA- “black urine” diseas ...
DNA, lesson 1
... Activity: DNA structure activity using gumdrops and toothpicks (20-30 minutes) – have students see if they can do it on their own, go around and see how they are doing o Each student makes 4 nucleotides, bring together and make classroom DNA molecule ...
... Activity: DNA structure activity using gumdrops and toothpicks (20-30 minutes) – have students see if they can do it on their own, go around and see how they are doing o Each student makes 4 nucleotides, bring together and make classroom DNA molecule ...
DNA People - Biology Junction
... 1st to suggest genes dictate phenotypes through enzymes that catalyze specific chemical reactions Postulated that the symptoms of an inherited disease are due to inability to make a specific enzyme Coined term “inborn errors of metabolism” to describe such diseases ALCAPTONURIA- “black urine” diseas ...
... 1st to suggest genes dictate phenotypes through enzymes that catalyze specific chemical reactions Postulated that the symptoms of an inherited disease are due to inability to make a specific enzyme Coined term “inborn errors of metabolism” to describe such diseases ALCAPTONURIA- “black urine” diseas ...
Chapter 12
... To find what molecule caused transformations they treated the mixtures w/ enzymes that killed proteins, lipids, carbohydrates, RNA, and then DNA. -Occured in all except one w/ DNA killed Avery and his team discovered that DNA stores and transmits genetic info. from generation to generation ...
... To find what molecule caused transformations they treated the mixtures w/ enzymes that killed proteins, lipids, carbohydrates, RNA, and then DNA. -Occured in all except one w/ DNA killed Avery and his team discovered that DNA stores and transmits genetic info. from generation to generation ...
Presentación de PowerPoint
... B. DNA and chromatin C. Chromatin and nucleotides D. Mature RNA and histones • Which base is connected to its complementary base in a base pair by three hydrogen bonds? A. Uracil B. Thymine C. Guanine D. Adenine • What is the distinction between highly repetitive DNA sequences and single-copy genes? ...
... B. DNA and chromatin C. Chromatin and nucleotides D. Mature RNA and histones • Which base is connected to its complementary base in a base pair by three hydrogen bonds? A. Uracil B. Thymine C. Guanine D. Adenine • What is the distinction between highly repetitive DNA sequences and single-copy genes? ...
分子生物學小考(一) 範圍ch3~ch7
... (A) a process by which pre-mRNA is transformed into mature mRNA (B) the process by which pre-mRNA is translated by ribozymes to produce proteins (C) a process by which a gene is converted into mRNA (D) a process by which a gene is converted into a protein (E) the process by which ribosomes read the ...
... (A) a process by which pre-mRNA is transformed into mature mRNA (B) the process by which pre-mRNA is translated by ribozymes to produce proteins (C) a process by which a gene is converted into mRNA (D) a process by which a gene is converted into a protein (E) the process by which ribosomes read the ...
Nucleic Acids - Biology Junction
... 10. Virus that attacks bacteria 11. Enzyme used to join the DNA strand that is replicated in small segments 13. Took x-ray pictures of DNA crystals that were used to know the size and structure of DNA 15. An element found in protein but not in nucleic acids 16. What enzymes must do to newly made DNA ...
... 10. Virus that attacks bacteria 11. Enzyme used to join the DNA strand that is replicated in small segments 13. Took x-ray pictures of DNA crystals that were used to know the size and structure of DNA 15. An element found in protein but not in nucleic acids 16. What enzymes must do to newly made DNA ...
DNA Who`s Who
... 23. Intervening, non-coding regions of mRNA are known as ____________________________. 24. Type of RNA that transports amino acids and translates the mRNA ________________________. 25. Transcription occurs in this organelle. _______________________________ 26. Portion of the cell in which the proces ...
... 23. Intervening, non-coding regions of mRNA are known as ____________________________. 24. Type of RNA that transports amino acids and translates the mRNA ________________________. 25. Transcription occurs in this organelle. _______________________________ 26. Portion of the cell in which the proces ...
Biomedical applications
... techniques to coal gold nanoparticles with DNA strands • These DNA nano-particles bind together when an anthrax protective antigen appears ...
... techniques to coal gold nanoparticles with DNA strands • These DNA nano-particles bind together when an anthrax protective antigen appears ...
15.2 Recombinant DNA
... Like bacterial plasmids, the DNA molecules used for transformation of plant and animal cells contain genetic markers that help scientists identify which cells have been transformed. ...
... Like bacterial plasmids, the DNA molecules used for transformation of plant and animal cells contain genetic markers that help scientists identify which cells have been transformed. ...
Genetic Engineering
... Using a computer, fluorescent dyes, and samples of adenine, guanine, cytosine, and thymine. ...
... Using a computer, fluorescent dyes, and samples of adenine, guanine, cytosine, and thymine. ...
Chapter 12-1 Skeleton Notes
... Mendel, through his experiments, concluded that a organism’s traits are a result of the inheritance of genes from that organism’s parents Mendel knew that this inheritance was due to some “factor” but was not able to identify what exactly it was – This left room for future scientists to discover wha ...
... Mendel, through his experiments, concluded that a organism’s traits are a result of the inheritance of genes from that organism’s parents Mendel knew that this inheritance was due to some “factor” but was not able to identify what exactly it was – This left room for future scientists to discover wha ...
Genetics
... Relate the concept of the gene to the sequences of nucleotides in DNA Sequence the steps involving protein synthesis Categorize the different kinds of mutations that can occur in DNA Compare the effects of different kinds of mutations on cells and organisms. ...
... Relate the concept of the gene to the sequences of nucleotides in DNA Sequence the steps involving protein synthesis Categorize the different kinds of mutations that can occur in DNA Compare the effects of different kinds of mutations on cells and organisms. ...
Reading: Structure of DNA
... the DNA is called a chromosome. DNA spends a lot of time in its chromosome form. But during cell division, DNA unwinds so it can be copied and the copies transferred to new cells. DNA also unwinds so that its instructions can be used to make proteins and for other biological processes. Nucleotides a ...
... the DNA is called a chromosome. DNA spends a lot of time in its chromosome form. But during cell division, DNA unwinds so it can be copied and the copies transferred to new cells. DNA also unwinds so that its instructions can be used to make proteins and for other biological processes. Nucleotides a ...
HRW BIO CRF Ch 09_p01-58
... a phosphate group, a five-carbon sugar molecule, and a nitrogen base It stands for deoxyribonucleic acid. a ...
... a phosphate group, a five-carbon sugar molecule, and a nitrogen base It stands for deoxyribonucleic acid. a ...
Ch12 DNA
... burst of out cell Conclusion: using radioactive markers, genetic material of bacteriophage was DNA not protein ...
... burst of out cell Conclusion: using radioactive markers, genetic material of bacteriophage was DNA not protein ...
File
... DNA is separated into single strands by gel DNA is negatively charged – migrates to positive ...
... DNA is separated into single strands by gel DNA is negatively charged – migrates to positive ...
DNA repair
DNA repair is a collection of processes by which a cell identifies and corrects damage to the DNA molecules that encode its genome. In human cells, both normal metabolic activities and environmental factors such as UV light and radiation can cause DNA damage, resulting in as many as 1 million individual molecular lesions per cell per day. Many of these lesions cause structural damage to the DNA molecule and can alter or eliminate the cell's ability to transcribe the gene that the affected DNA encodes. Other lesions induce potentially harmful mutations in the cell's genome, which affect the survival of its daughter cells after it undergoes mitosis. As a consequence, the DNA repair process is constantly active as it responds to damage in the DNA structure. When normal repair processes fail, and when cellular apoptosis does not occur, irreparable DNA damage may occur, including double-strand breaks and DNA crosslinkages (interstrand crosslinks or ICLs).The rate of DNA repair is dependent on many factors, including the cell type, the age of the cell, and the extracellular environment. A cell that has accumulated a large amount of DNA damage, or one that no longer effectively repairs damage incurred to its DNA, can enter one of three possible states: an irreversible state of dormancy, known as senescence cell suicide, also known as apoptosis or programmed cell death unregulated cell division, which can lead to the formation of a tumor that is cancerousThe DNA repair ability of a cell is vital to the integrity of its genome and thus to the normal functionality of that organism. Many genes that were initially shown to influence life span have turned out to be involved in DNA damage repair and protection.