Chapter 11.2 & 11.3 Introduction to Genetics Step 1 Read sections 11.2 & 11.3 and complete the guided notes below. 1. What is probability? 2. In a parent pea plant with the allele pair Gg‚ what is the probability that one gamete will contain the G allele? 3. Complete the graphic organizer to define the characteristics of homozygous and heterozygous genotypes and phenotypes. Homozygous Genotype Phenotype Heterozygous 4. The dominant allele for smooth pod shape in peas is S. The recessive allele
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slightly lighter blue than its surroundings in the sixth lane. This smear is the plant chloroplast gene‚ which barely showed up on the positive control(Lane 2) and lanes 5 and 6. Lane 1 was the ladder‚ which showed DNA fragments of different sizes so we could compare. The third lane is the negative control‚ which was DNA that was known to not have genetically modified genes. The plant chloroplast gene showed up in this lane. However‚ it did not show up on the first group’s lane‚ and this was probably
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a population as a result of a selective force Hypothesis The starting ratio of HbA to HbS is 3:1; in a typical population‚ the Homozygous Dominant Gene would become the standard‚ but because carrying the Heterozygous version of the allele has an advantage to fighting Malaria it will become the dominant Allele for the population. The HbA/HbS gene will thrive because it helps in the fight against Malaria‚ turning a typically negative trait into an advantage. The Homozygous Recessive will disappear
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engineered through science by the process known as genetic engineering. Genetic engineering is the manipulation of genes‚ implying that the process is outside the organism’s reproductive process. This is done by the genetic engineering of splicing genes together. Splicing genes together is done by the researchers of a certain area of study employing genetic engineering to take certain genes from a source organism and put them into another plant or animal. An example of genetic engineering is when a
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last few decades‚ and as long as many adults can remember‚ the view of gene inheritance has been written in the four letter language of DNA. Genetic mutations and re-combinations have driven most descriptions of how phenotypic traits are handed down from one generation to the next (The American Association for the Advancement of Science). Researchers and physicians attempted to untangle and discover the clues that suggested gene function could be altered by more than just changes in sequence (Weinhold
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it created the field of genetic engineering. In a way‚ manipulation of genes is not really new. Long before‚ farmers have controlled the outcome of plant and animal breeding through selective breeding. It all first started with the concept of selective breeding‚ which is still done today by arranging animals to breed together to enhance and increase genetic make-up [3]. But unlike genetic engineering‚ the manipulation of genes in selective breeding is all natural and can only be done within the same
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matings between different pea plants.| c.|it is possible to obtain large numbers of progeny from any given cross.| d.|peas have an unusually long generation time.| e.|many of the observable characters that vary in pea plants are controlled by single genes.| ____ 2. What is the difference between a monohybrid cross and a dihybrid cross? a.|A monohybrid cross involves a single parent‚ whereas a dihybrid cross involves two parents.| b.|A monohybrid cross produces a single progeny‚ whereas a dihybrid
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In the first part of this lab‚ E.coli cells were transformed with an R-plasmid carrying a tetracycline resistant gene‚ giving rise to tetracycline resistant E.coli strain. This was accomplished through transformation‚ which allowed E.coli to directly uptake the naked DNA molecule carrying the antibiotic resistant gene (1). However‚ in order to take up the DNA and incorporate them into their genome via recombination‚ cells must be competent (1). Therefore‚ E.coli cells which are not competent under
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acquire the gene of interest. The second step is gene cloning involving separation of a single gene of interest from the rest of the extracted genes. Scientists design the gene for it to work in a different organism by separation and replacement of gene regions. Tissue culture propagates callus masses of undifferentiated plant cells‚ where introduction of the new transgene will take place. Methods such as gene gun‚ electroporation‚ Agrobacterium and microfibers transport the new gene to the cell
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Define the terms zygote‚ chromosomes‚ genes‚ and DNA‚ and explain how they are related. What do you think of when you hear the words zygote‚ chromosomes‚ genes and deoxyribonucleic acid also known as DNA? Those words all are contribute of the genetic make-up of your life. Zygote‚ chromosomes‚ genes and DNA are all related. They are extremely important in life and we need those to even be here today. Without those we are nothing. The zygote is a single cell formed at conception. The zygote contains
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