Investigation 3: DNA - connorericksonbiology

... There are two types of genes for each trait: Dominant, and Recessive. The combination determines the trait to be expressed at the time of conception, sperm cell fuses with the ovum to create a new cell called Zygot with 46 (23 pairs) chromosomes. On each pair of Chromosomes, there are two genes that ...

Lecture 3/30/15 by Dr. Katsunori Sugimoto

Genes and Genetic Disease

... phenotypically normal  to demonstrate a recessive disease the pair of recessive ...

Protein Synthesis Review Sheet

... I. RNA 1. What does ‘RNA’ stand for? 2. What are the 4 bases of RNA and how do they pair up? a. b. c. d. 3. Name the two types of RNA and the basic function of each. II. Protein Synthesis List the 5 steps of protein synthesis here (use separate notes handout): ...

Uses of Genomic Information in the Diagnosis of Disease

Genetic engineering

... Finding Genes To find the actual gene that produced GFP, Prasher took a gel in which restriction fragments from the jellyfish genome had been separated and found that one of the fragments bound tightly to the mRNA That fragment contained the actual gene for GFP ...

Nucleotide is composed of a ribose sugar, a base and a phosphate

... suitable media for isolation of strains. In bacteria, exchange of DNA from another cell. Consequences of recombination include new genotypes and phenotypes, eg. Ability to synthesis a new enzyme, antibiotic resistance. Strains carrying recombinant DNA are termed recombinants Homologous recombination ...

Gene Technology Study Guide KEY

...  DNA ligase: Joins pieces of DNA together (glue)  What are sticky ends and what is their importance?  Sticky ends are the overhang of nucleotides that result when a restriction enzyme cuts DNA. Their importance is that this allows for DNA from other organisms to join this genome in order to make ...

International Fetal Growth Standards

... Abstraction. It is considered essential for interpretation of this measure. 3. Plotting the EFW or Biometric Measures – International standards Determination of fetal growth should then be undertaken, by plotting EFW or biometric measures on a growth curve, allowing for determination of percentiles, ...

Carrots and Genomics

... • Mimics the process of DNA duplication in the plant • The polymerase (enzyme) requires dsDNA to start building in nucleotides ...

Chapter 1 : Genetics 101

... be totally disabled by the mutation or gain an entirely new, but damaging, function. The outcome of a particular mutation depends not only on how it alters a protein’s function, but also on how vital that particular protein is to survival. Other mutations, called polymorphisms, are natural variation ...

Document

... 4. In the chemical analysis of the DNA from different species, the work of Chargaff indicated that the amount of adenine equaled the amount of thymine and that the amount of cytosine equaled the amount of guanine. 5. In the early 1950s, Linus Pauling proposed that regions of proteins can fold into a ...

S1.A hypothetical sequence at the beginning of an mRNA molecule

... 4. In the chemical analysis of the DNA from different species, the work of Chargaff indicated that the amount of adenine equaled the amount of thymine and that the amount of cytosine equaled the amount of guanine. 5. In the early 1950s, Linus Pauling proposed that regions of proteins can fold into a ...

DNA (Gene) Mutations

... more) missing, added, or incorrect A mistake in the genetic code Wrong instructions  wrong building materials  wrong structure. ...

Mutations (1 of 2)

... allele may occasionally show symptoms such as pain and fatigue. 5. There are positive effects at the whole organism level. Carriers of the sickle cell allele are resistant to malaria, because the parasites that cause this disease are killed inside sickle-shaped blood cells. This is a chain of causat ...

DNA Extraction from Bacteria

... DNA Extraction from Bacteria DNA carries in its molecular structure the genetic information for cell development and behavior. Consequently, all living cells contain DNA. DNA can be isolated from cells of any plant, animal, or microorganism. In this laboratory procedure, you will isolate DNA from Es ...

BIOLOGY Cells Unit GUIDE SHEET

... 14. Explain why frameshift mutations (mutations involving the insertion of deletion of one or more nucleotides in a gene) usually have major effects on the amino acid sequence of a protein (page 199). ...

Product Datasheets

... Easy Cloning System is a highly efficient, vector-independent system for the seamless assembly of DNA fragments that share terminal end-homology and allows the seamless assembly of DNA inserts up to 12 kb and virtually any linearized E. coli vector. This System relies on homologous recombination to ...

Molecular Genetics and Biotechnology PPT

... 1. DNA is cut into smaller pieces using restriction enzymes 2. An electrical current is applied 3. DNA is separated by size. Shorter fragments move farther down the gel than longer fragments ...

Semester 2 Exam Review

... deoxyribose sugar _________________, and __________________________). ***Word Bank*** new, old, proof reading enzymes, two ...

This exam is worth 50 points Evolutionary Biology You may take this

... 14. According to Mendel’s first law, the gametes of a heterozygous individual will be... (A) all dominant alleles (B) all recessive alleles (C) half dominant alleles, half recessive alleles (D) 25% dominant alleles, 75% recessive alleles (E) all heterozygous alleles. 15. If a heterozygous individual ...

6.G Meiosis Graphic Organizer 6.H Genetic Variation

... a. involves DNA replication b. provides genetic variation c. occurs in reproductive cells d. prevents genetic variation 6.H _____13. A mutation caused by a piece of DNA breaking away from its chromosome and becoming attached to a nonhomologous chromosome is called: a.deletion b.duplication c.inversi ...

Recombinant DNA technology article

+ IPTG + X-gal

... -lactam ring ...

Recitation Section 17 Answer Key Recombinant DNA and Cloning

... Under special conditions, plasmid DNA can enter E. coli cells. The plasmid DNA functions as normal DNA, i.e., genes on the plasmid can be transcribed and translated. E. coli cells that have incorporated a plasmid are said to be transformed. 2. Where have we encountered a transformation before? In t ...

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Cell-free fetal DNA

Cell-free fetal DNA (cffDNA) is fetal DNA circulating freely in the maternal blood stream. It can be sampled by venipuncture on the mother. Analysis of cffDNA provides a method of non-invasive prenatal diagnosis.cffDNA originates from the trophoblasts making up the placenta. It is estimated that 2-6% of the DNA in the maternal blood is fetal in origin. The fetal DNA is fragmented and makes its way into the maternal bloodstream via shedding of the placental microparticles into the maternal bloodstream (figure 1). Studies have shown that cffDNA can first be observed as early as 7 weeks gestation, and the amount of cffDNA increases as the pregnancy progresses. cffDNA diminishes quickly after the birth of the baby, so that it is no longer detectable in the maternal blood approximately 2 hours after birth. cffDNA is significantly smaller than the maternal DNA in the bloodstream, with fragments approximately 200bp in size. Many protocols to extract the fetal DNA from the maternal plasma use its size to distinguish it from the maternal DNA.Studies have looked at, and some even optimized, protocols for testing non-compatible RhD factors, sex determination for X-linked genetic disorders and testing for single gene disorders. Current studies are now looking at determining aneuploidies in the developing fetus. These protocols can be done earlier than the current prenatal testing methods, and have no risk of spontaneous abortion, unlike current prenatal testing methods. Non-invasive prenatal diagnosis (NIPD) has been implemented in the UK and parts of the US; it has clear benefits above the standard tests of chorionic villi sample (CVS) and amniocentesis which have procedure-related miscarriage risks of about 1 in 100 pregnancies and 1 in 200 pregnancies, respectively.As a method of prenatal diagnosis, cell-free fetal DNA techniques share the same ethical and practical issues, such as the possibility of prenatal sex discernment and sex selection.

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Cell-free fetal DNA