Kin selection, genomics and caste
... Figure 2. The outcome of selection for genes experiencing directional selection or caste-antagonistic selection. (a) The probability of fixation of newly arising additive alleles as a function of the strength of selection is identical under direct selection (DS) on queens or kin selection (KS) on wo ...
... Figure 2. The outcome of selection for genes experiencing directional selection or caste-antagonistic selection. (a) The probability of fixation of newly arising additive alleles as a function of the strength of selection is identical under direct selection (DS) on queens or kin selection (KS) on wo ...
Beyond Mendel’s Laws… Incomplete Dominance
... • Every trait that we’ve looked at so far has involved only two possible alleles per trait: one dominant and one recessive. (eg. T for tall, t for short) ...
... • Every trait that we’ve looked at so far has involved only two possible alleles per trait: one dominant and one recessive. (eg. T for tall, t for short) ...
Human Heredity - Fort Bend ISD
... 1. A pedigree is similar to a family tree- both are used to show relationships in a family. 2. Pedigrees can be used to demonstrate how traits are passed from one generation to another. ...
... 1. A pedigree is similar to a family tree- both are used to show relationships in a family. 2. Pedigrees can be used to demonstrate how traits are passed from one generation to another. ...
Plant breeding
... Diffuse centromeres – in asexual organisms where the offspring is an exact genetic copy ...
... Diffuse centromeres – in asexual organisms where the offspring is an exact genetic copy ...
Genetic Algorithms
... (genetic material) • Genotype is a particular set of genes (encoded in chromosomes) in the genome that represent the genetic material of an individual • Phenotype are the physical an mental characteristics related to a genotype (eye color, intelligence, height, hair type, etc) of an individual ...
... (genetic material) • Genotype is a particular set of genes (encoded in chromosomes) in the genome that represent the genetic material of an individual • Phenotype are the physical an mental characteristics related to a genotype (eye color, intelligence, height, hair type, etc) of an individual ...
Last semester I tried a new strategy to teach macro
... was Halloween & I had lots of candy, so I brought in bags of candy so students could use it to illustrate the various processes. It could be used with anything really, but the candy was fun, cheap, & they can eat it as a reward or in the process. I broke them up into groups & gave them assorted cand ...
... was Halloween & I had lots of candy, so I brought in bags of candy so students could use it to illustrate the various processes. It could be used with anything really, but the candy was fun, cheap, & they can eat it as a reward or in the process. I broke them up into groups & gave them assorted cand ...
Adaptive evolution in invasive species
... Figure 1. Adaptive evolution during the stages of invasion. Key stages in plant invasions can be depicted with regard to the change in range size over time (centre), or with reference to sequential barriers that the species must negotiate [66] (top). The barriers to invasion predispose plants to cer ...
... Figure 1. Adaptive evolution during the stages of invasion. Key stages in plant invasions can be depicted with regard to the change in range size over time (centre), or with reference to sequential barriers that the species must negotiate [66] (top). The barriers to invasion predispose plants to cer ...
Adaptive evolution in invasive species
... Figure 1. Adaptive evolution during the stages of invasion. Key stages in plant invasions can be depicted with regard to the change in range size over time (centre), or with reference to sequential barriers that the species must negotiate [66] (top). The barriers to invasion predispose plants to cer ...
... Figure 1. Adaptive evolution during the stages of invasion. Key stages in plant invasions can be depicted with regard to the change in range size over time (centre), or with reference to sequential barriers that the species must negotiate [66] (top). The barriers to invasion predispose plants to cer ...
You Light Up My Life
... Human Genetic Analysis • Geneticists often gather information from several generations to increase the ...
... Human Genetic Analysis • Geneticists often gather information from several generations to increase the ...
Genetics Unit Guid ANSWERS
... be completing a vocabulary activity using these terms. 1. Meiosis = form of nuclear division that divides a diploid cell into haploid cells, important in forming gametes for sexual reproduction. 2. Heredity = passing of traits from parents to offspring. 3. Genome = all an organism’s genetic material ...
... be completing a vocabulary activity using these terms. 1. Meiosis = form of nuclear division that divides a diploid cell into haploid cells, important in forming gametes for sexual reproduction. 2. Heredity = passing of traits from parents to offspring. 3. Genome = all an organism’s genetic material ...
Part 1 Population and Community Dynamics
... Review Evolution by Natural Selection • new variants of a species are continually arising in a population • variants can be successful and lead to new species • variants can be unsuccessful and die off ...
... Review Evolution by Natural Selection • new variants of a species are continually arising in a population • variants can be successful and lead to new species • variants can be unsuccessful and die off ...
here
... Selective sweeps -> fewer alleles present in population (see contributions from Archaic Humans for example) Repeated episodes of positive selection -> high dN ...
... Selective sweeps -> fewer alleles present in population (see contributions from Archaic Humans for example) Repeated episodes of positive selection -> high dN ...
Genetic Diversity
... • Genetic diversity is the basis for the professions forest geneticist and tree breeder. ...
... • Genetic diversity is the basis for the professions forest geneticist and tree breeder. ...
How are Traits Passed from Parents to Offspring
... How are Traits Passed from Parents to Offspring? A trait is a characteristic, such as color or size, that is inherited by an offspring from its parents. The genes that control a trait come in pairs, one gene from each parent. We represent these gene pairs by writing a combination of two letters. For ...
... How are Traits Passed from Parents to Offspring? A trait is a characteristic, such as color or size, that is inherited by an offspring from its parents. The genes that control a trait come in pairs, one gene from each parent. We represent these gene pairs by writing a combination of two letters. For ...
Lesson
... Traits are observable characteristics. While each of us shares some of our traits with many other people, the combination of all our individual traits is what makes us unique. All the traits in your body are determined by bits of DNA called genes. Hundreds of genes together form chromosomes, which a ...
... Traits are observable characteristics. While each of us shares some of our traits with many other people, the combination of all our individual traits is what makes us unique. All the traits in your body are determined by bits of DNA called genes. Hundreds of genes together form chromosomes, which a ...
Mendelian Genetics #1: Genetic Terminology
... A trait such as human blood type results from a single gene that has more than two alleles. A continuous (polygenetic) trait, on the other hand, such as ear length in corn, is controlled by many genes. Q27. A continuous trait is a trait for which the phenotypes vary gradually from one extreme to ano ...
... A trait such as human blood type results from a single gene that has more than two alleles. A continuous (polygenetic) trait, on the other hand, such as ear length in corn, is controlled by many genes. Q27. A continuous trait is a trait for which the phenotypes vary gradually from one extreme to ano ...
Polymorphism (biology)
Polymorphism in biology is said to occur when two or more clearly different phenotypes exist in the same population of a species—in other words, the occurrence of more than one form or morph. In order to be classified as such, morphs must occupy the same habitat at the same time and belong to a panmictic population (one with random mating).Polymorphism as described here involves morphs of the phenotype. The term is also used somewhat differently by molecular biologists to describe certain point mutations in the genotype, such as SNPs (see also RFLPs). This usage is not discussed in this article.Polymorphism is common in nature; it is related to biodiversity, genetic variation and adaptation; it usually functions to retain variety of form in a population living in a varied environment. The most common example is sexual dimorphism, which occurs in many organisms. Other examples are mimetic forms of butterflies (see mimicry), and human hemoglobin and blood types.According to the theory of evolution, polymorphism results from evolutionary processes, as does any aspect of a species. It is heritable and is modified by natural selection. In polyphenism, an individual's genetic make-up allows for different morphs, and the switch mechanism that determines which morph is shown is environmental. In genetic polymorphism, the genetic make-up determines the morph. Ants exhibit both types in a single population.Polymorphism also refers to the occurrence of structurally and functionally more than two different types of individuals, called zooids within the same organism. It is a characteristic feature of Cnidarians.For example, in Obelia there are feeding individuals, the gastrozooids; the individuals capable of asexual reproduction only, the gonozooids, blastostyles and free-living or sexually reproducing individuals, the medusae.