Essay for admission to university
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Monday, August 24, 2020
Social welfare policy that facilitates reduction of poverty and inequality in US
Presentation In the previous two decades, the global network has made neediness destruction as their main need. Longer than 10 years prior, Breton wood establishments thought of a goal of limiting instances of salary â⬠neediness in less created nations from over 30% to under 15% by 2015 (Bourguignon 2).Advertising We will compose a custom exposition test on Social government assistance strategy that encourages decrease of destitution and imbalance in US explicitly for you for just $16.05 $11/page Learn More Escalation in worldwide neediness has prompted rise, combination, and administration of new monetary models which centers around financial solidness, progression, privatization of open organizations, and investigation of market arrangements in providing open products. These methodologies denoted the period of approach making in both created and creating countries in their push to advancing expectations for everyday comforts of the poor countries and the annihilation of destitu tion universally (Bourguignon 3). Most examinations researching imbalances between nations accept all residents from these countries have comparative mean salary. The majority of these examinations recommends that lion's share of the Asian nations developed first towards the mean salary while the remainder of creating countries are moving further away (Glazer 3). These examinations show that the pay of the most extravagant individuals from the populace which establishes of about 20% has rose to over 80%. Accordingly, the expanding worldwide disparity has been a steady component in the course of recent decades, with a recognizable situation from 80s to date and there is modest proof that this condition will change (Glazer 4). With prohibition of china, the decrease of imbalance in the worldwide field has not been acknowledged since 1975. Since the finish of 70s, US have encountered awesome increment in financial disparity. US is viewed as the most inconsistent country among the world most extravagant economies. Regardless of the size of the expansion in the imbalance, the political class in the US once in a while talks about this subject in general society. Since the commencement of the United States of America, its masses has battled significantly with the Catch 22 of neediness in the midst of wealth (Weil and Kenneth 2). This has left numerous individuals asking why a country invested with such greatness of riches despite everything witness its own residents battle while there are tremendous chances and phenomenal economy. Are poor people to be to be accused or they are only survivors of social disparity hounded with prejudice and fanaticism, or monetary framework that favors the well-to-do over the battling populace? The mystery of the American destitution gets down to quite a while and the main news is the measure of open strategy fixation pointed towards poor people. A great deal of consideration is being paid now than previously and one of the significant explanations behind this is the rebuilding of the government assistance system.Advertising Looking for paper on business financial matters? How about we check whether we can support you! Get your first paper with 15% OFF Learn More The American pay defending framework is sorted into two dependent on their relationship with the laborers; one of the class is the standardized savings which incorporates joblessness pay program, handicap protection among others which is connected to the finance derivation or commitments from the pay to the open projects. The other classification is the social government assistance programs whose reasonableness is fixated on the government assistance gaining and amassed riches. Government assistance programs are generally for the penniless and the needy individuals in the general public (Glazer 3). Moral Responsibility and Work opportunity Reconciliation Act (PRWORA) of 1996 prompted the redesign of the government assistance framework. One of the signifi cant change programs was the Aid to Families with Dependent Children (AFDC). This program offered money motivating forces to the families which had youngsters yet earned low salary (Weil and Kenneth 4-5). There were different enactments that tried to end the entirety of the above government programs that helped the low-pay workers/the poor by empowering independence and moral obligation. PRWORA set up severe estimates that restricted the money help, upheld work prerequisites, and advanced marriage and family unit as a reason for bringing up kids (Trattner 6). Government assistance changes in the US have been a major accomplishment, regardless by thinking about the decrease in the government assistance issues. The quantity of families that got help from the government assistance programs diminished by the greater part between the year 1994 and the year 2000. Constantly 2000, just 2.1% of the US masses was accepting help from the administration government assistance program known as t he Temporary Assistance for the Needy Family program (TANF). Achievements of these projects were advanced by the thriving economy around then. This government assistance programs helped in destitution caseloads decrease even in the single families with ladies as the head. The year 2002 saw the re-approval of the government assistance change bill because of the fights from the neediness and government assistance rights gathering. The correct gathering contended that PRWORA put a ton of spotlight on limiting caseloads as opposed to organizing neediness decrease (Glazer 3). Measurements of the poor Americans According to the investigations did in the year 2000 it was built up that the poor Americans established of about 11% of the populace. This examination was conveyed by the US office of the board and Budget. This was the most reduced rate since 70s and just 4.4% lived beneath the destitution line.Advertising We will compose a custom exposition test on Social government assistance ar rangement that encourages decrease of neediness and imbalance in US explicitly for you for just $16.05 $11/page Learn More There is small proof to help the pundits who restricts PRWORA asserting that it has devastated the people more. In a self evident actuality, the normal salary of the American families inside the section of base 20% expanded from 12600 dollars to more than 14000 dollars. The developing wages among poor people and the rich fortified the rapture over the improving economy and confirming cases that government assistance change was effective (Glazer 3). Activists speaking to the poor contend that pay benchmark utilized by the national government to gauge destitution was too low to even consider covering the fundamental needs. In the year 2000, single parents with two kids required just 14000 dollars to be tallied out of the poor populace while a family unit with two kids required 17500 dollars. Conversely, the middle salary for the American families was around 51000 dollars. Expert contends that individual pay at or over the financial neediness pay edge can't bolster a person on the planet greatest urban areas like London, Washington D.C, among others since lodging is past their compass (Bourguignon 2). Impressive contrast in living expenses in various land areas frames the reason for analysis against a solitary national pay standard for characterizing neediness. Different constraints on the official meaning of neediness are its inability to represent other wellspring of pay or bolster, for example, food stamps (Trattner 6). Youngster destitution rates dropped by practically 20% in the mid 1990s to the year 2006 as indicated by the national review completed in 2007. About 11.5 million kids and 3.4 million grown-ups old enough 65 or more live in destitution making practically 50% of the poor populace in America. Kids and old people are considered as qualified poor who merits stateââ¬â¢s help. They can't be considered answerable for their poor status. Americaââ¬â¢s racial minorities despite everything comprise the least fortunate in the American culture (Glazer 3). The racial structure and piece of the poor Americans have not changed in the course of recent years. In mid 90s, half of poor people populaces were non-Hispanic white. This figure went somewhere around 3% in the year 2000 to 47%. Americaââ¬â¢s expanding racial assorted variety has occurred simultaneously with the winding down neediness rates across racial and ethnic minority gatherings. Between 1990 to date neediness, rates have gone down from 28% to 19% among the Hispanic, and from 12% to 10% among Asian and Islanders.Advertising Searching for article on business financial matters? How about we check whether we can support you! Get your first paper with 15% OFF Find out More Decrease in destitution rates dropped steeply among the African American from about 40% in the year 1990 to about 20% in the year 2006. In any case, destitution rates among the African American and the Hispanics is still about double the national normal (Trattner 7). Compensation imbalance among male and female have continued combined with the heightening in single parenthood. This has supported the observation that the developing poor Americans are ladies (Bourguignon 2). In the year 2000, the destitution among ladies was 25% higher than men and this sex distinction has stayed consistent throughout the years. The sex distinction has continued in spite of the expanding female work rate, increment in pay and decreasing compensation contrast among male and females (Trattner 6). About portion of the Americaââ¬â¢s poor families are going by ladies in spite of the fact that families headed by ladies just speak to quarter of the all families with kids. In the year 2000, the pace of poor families headed by ladies was multiple times higher than the rate for wedded couple (Trattner 6). After the order of the PRWORA, this rate began to decrease from 47% to almost 30%. The fundamental objective for this government assistance program was to empower work and financial independence among the poor especially among the unwed moms with kids. In this way, government assistance changes constrained huge level of female recipients into the work power. In spite of the fact that work doesn't shield a person from neediness, individuals who territory utilized are probably going to be less poor (Glazer 3). The moral Responsibility and Work Opportunity Reconciliation Act (PRWORA) The moral Responsibility and Work Opportunity Recon
Saturday, August 22, 2020
Change & Continuity in Contemporary Business Essay
Change and Continuity in Contemporary Business - Essay Example It additionally enthused the workforce with restored vision of the organization and furnished lucidity to them as to their jobs in the makeover of the association. However, the change could be called just a section accomplishment since this change has not tackled the companyââ¬â¢s serious issue of maturing middle age of its clients. The organization would be again compelled to conceptualize so as to handle this circumstance. In the rush to handle prompt emergency, it has not made any arrangement for future market changes. It is yet to go about according to the apparent changes in the coming years. In the end, the report suggests that Harley Davidson should look for its future in fresher market sections with new items. Among its workers, it should prepare and direct a picked set of individuals to get the indications of propelling change in the market situation and find a way to get ready as needs be. It additionally prescribes the association to broaden in other car sections, for example, vehicles and business vehicles. As clear from the time bar above, Harley Davidson saw bunches of high points and low points before it entered the change stage. Harley Davidson, in its initial days was the main cruiser maker in America and administered the bike advertise. Notwithstanding, it was gotten unprepared when outside contestants overwhelmed the market with creative, quality and reasonable items. The Japanese players took into account more up to date showcase portions undiscovered by Harley. The adjustment in the board of the organization and the new managementââ¬â¢s scramble to find the contenders added to the misfortunes of the organization which was at that point experiencing declined piece of the pie. The organization drooped to its least as far as piece of the pie for example 23%. It was now that couple of its administrators chose to assume control over the organization. They attempted to comprehend the qualities of the contenders and the shortcomings of their own association and realized a new under standing into work. Under the capable administration
Wednesday, July 22, 2020
Writing Research Papers - How to Write a Good One
Writing Research Papers - How to Write a Good OneWritten research papers are the backbone of a good academic career. Research papers must be well-presented and designed in such a way that they can be presented at any of the faculties or research forums in order to gain attention. It is for this reason that a lot of efforts are made in order to ensure that the documents are well researched and have excellent structure.Writing well researched research papers is not an easy task but it is not an impossible one either. However, you should never believe that if you are competent enough, you can just write whatever you want as long as you think it is good enough. You should know your strengths and weaknesses so that you can focus on enhancing your skills in writing for better results.There are certain things that you should remember when preparing a good research paper. One of the most important things to do is to make sure that the research paper contains the following five elements: a. r elevance b. interpretation c. originality d. precision e. thoroughness. While writing a research paper, it is important to keep in mind these five elements and be able to integrate them into a single whole.When writing research papers, there are certain things that you should avoid. The following things should be avoided in writing research papers:o Make sure that the language that you use in writing the research paper is clear and to the point. Avoid using metaphor or jargon. This will not only lessen the impact of your research paper but will also lead to being classified as a rambling writing instead of a research paper. Make sure that the research paper is written in a systematic and sequential manner.o As a part of writing research papers, try to be systematic in how you organize the topics. Organizing your research papers will help you write an essay that is easier to read and comprehend. Furthermore, you should also try to keep the thesis statement clear and short so that you r readers will not find yourself going back to it.o It is important to write the research papers in a logical and structured manner. You should be able to communicate the ideas clearly from the beginning of the research paper to the end and in between.Writing research papers requires creativity and a lot of effort. The above tips will definitely help you write a good research paper.
Friday, May 22, 2020
Psychology My View On Psychology - 1277 Words
PSYCHOLOGY: MY VIEW 3 Psychology is often misconstrued as a form of diagnostic and treatment only for individuals who have mental or emotional problems. However, this is just one form of psychology. The online general psychology course at South University introduces the student to a more accurate notion of psychology. The following essay will provide an overview of the material learned on the first two weeks of the online class. As such, the reader will have a better understanding of psychology; its historical development and impact in modern psychology; and how the scientific research applies in psychology. PSYCHOLOGY AS A SCIENCE In our textbook, psychology is defined as ?the scientific study of thought and behavior? (Feistâ⬠¦show more contentâ⬠¦Therefore, the researchers conducted experiments on Albert to test their assumption consisting on striking the hammer on the steel when they presented an animal or object. Finally, the researchers interpreted Alberts reaction to the animal or objected after being conditioned to associate it with a negative sensation and communicated their prediction was plausible. The fact that the researchers in this case were able to observe, measure and manipulate a reaction on Albert to produce empirical evidence needed to prove or disprove their theory is what makes psychology a science. HISTORY OF PSYCHOLOGY AND ITS IMPACT ON MODERN PSYCHOLOGY In the lecture and textbook, it is mentioned that psychology stems from two unrelated scientific fields which are philosophy and physiology. Philosophy, as it is defined in our lecture, refers to ?the pursuit of knowledge and wisdom? (South University, 2015). Physiology, on the other hand, refers to ?the study of the functions of an organism?(South University, 2015). Although many individuals contributed to the practice and development of psychology, only a handful of these contributors laid the ground work that shaped psychology into a science. For instance, the philosopher John Locke introduced the theory of empiricism. In his theory, Locke contended the mind begins as a?tabula rasa, or blank
Thursday, May 7, 2020
Analysis of Capital, inequality and injustice in Latin...
Human rights is the most important gift given at birth. It allows us to speak and commit legal and constitutional acts freely. But when a strong term such as this is protested for, we must ask ourselves if all humans are allowed to practice it in every country. If so, to what extent? The main focus of human rights writers and activists is in concern to the extent of unlawful treatment such as conquering of land from indigenous people in most if not all third world countries. We have learned that most problems in the world are blamed on one word, globalization, but it takes several words to fix the ongoing problem of globalization and its affects. The capital and injustice in Latin America has shown to be one of the reasons for suchâ⬠¦show more contentâ⬠¦The origination of westernization began from Columbuss voyage to the Americas. With the settling of slaves, animals and western ideas, Latin America would soon become a fulfilled dream of Europe, but now it has affected indige nous groups such as the Zapatistas of southern Mexico. Their land, culture and society has been practically erased by the settlers. The affects of the settling provided Mexico and other southern countries with close to nothing in royalties and little to nothing in cultural awareness. Considered as one of Harriss most disturbing realities, inequality in Latin America is thought to be best revealed as the inequality of income between the upper and lower income-earners(5). While only 20 percent of people own that large amount of land, the rest of the population is considered the lower class that receives low wages, little to no health care affordability and the lack of basic fundamentals such as sewage systems or running water. The rates of illiteracy and infant mortality are unacceptably high (particularly in rural areas). In a general study, it was found that the rural population exhibits rates of illiteracy that was found 50-75 percent greater than that in urban areas. Harris then explains the reasons for the extent of poverty that has increased in the largest cities as a result of recent wage declines, downsizing in the private sector,Show MoreRelatedOne Significant Change That Has Occurred in the World Between 1900 and 2005. Explain the Impact This Change Has Made on Our Lives and Why It Is an Important Change.163893 Words à |à 656 PagesOral History and Public Memories Tiffany Ruby Patterson, Zora Neale Hurston and a History of Southern Life Lisa M. Fine, The Story of Reo Joe: Work, Kin, and Community in Autotown, U.S.A. Van Gosse and Richard Moser, eds., The World the Sixties Made: Politics and Culture in Recent America Joanne Meyerowitz, ed., History and September 11th John McMillian and Paul Buhle, eds., The New Left Revisited David M. 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Wednesday, May 6, 2020
Phylogenetic Free Essays
string(36) " which all OTUs in the tree arises\." Molecular Phylogenetics An introduction to computational methods and tools for analyzing evolutionary relationships Karen Dowell Math 500 Fall 2008 Molecular Phylogenetics Karen Dowell 1 Abstract Molecular phylogenetics applies a combination of molecular and statistical techniques to infer evolutionary relationships among organisms or genes. This review paper provides a general introduction to phylogenetics and phylogenetic trees, describes some of the most common computational methods used to infer phylogenetic information from molecular data, and provides an overview of some of the many different online tools available for phylogenetic analysis. In addition, several phylogenetic case studies are summarized to illustrate how researchers in different biological disciplines are applying molecular phylogenetics in their work. We will write a custom essay sample on Phylogenetic or any similar topic only for you Order Now Introduction to Molecular Phylogenetics The similarity of biological functions and molecular mechanisms in living organisms strongly suggests that species descended from a common ancestor. Molecular phylogenetics uses the structure and function of molecules and how they change over time to infer these evolutionary relationships. This branch of study emerged in the early 20th century but didnââ¬â¢t begin in earnest until the 1960s, with the advent of protein sequencing, PCR, electrophoresis, and other molecular biology techniques. Over the past 30 years, as computers have become more powerful and more generally accessible, and computer algorithms more sophisticated, researchers have been able to tackle the immensely complicated stochastic and probabilistic problems that define evolution at the molecular level more effectively. Within past decade, this field has been further reenergized and redefined as whole genome sequencing for complex organisms has become faster and less expensive. As mounds of genomic data becomes publically available, molecular phylogenetics is continuing to grow and find new applications. 4, 10, 17, 20, 22] The primary objective of molecular phylogenetic studies is to recover the order of evolutionary events and represent them in evolutionary trees that graphically depict relationships among species or genes over time. This is an extremely complex process, further complicated by the fact that there is no one right way to approach all phylogenetic problems. Phylogenetic data sets can cons ist of hundreds of different species, each of which may have varying mutation rates and patterns that influence evolutionary change. Consequently, there are numerous different evolutionary models and stochastic methods available. The optimal methods for a phylogenetic analysis depend on the nature of the study and data used. [5, 19, 20] Molecular Evolution: Beyond Darwin Evolution is a process by which the traits of a population change from one generation to another. In On the Origin of Species by Means of Natural Selection, Darwin proposed that, given overwhelming evidence from his extensive comparative analysis of living specimens and fossils, all living organisms descended from a common ancestor. The bookââ¬â¢s only illustration (see Figure 1) is a tree-like structure that suggests how slow and successive modifications could lead to the extreme variations seen in species today. [11, 27] Molecular Phylogenetics Karen Dowell 2 Figure 1. Evolution Defined Graphically. The sole illustration in Darwinââ¬â¢s Origin of the Species uses a tree-like structure to describe evolution. This drawing shows ancestors at the limbs and branches of the tree, more recent ancestors at its twigs, and contemporary organisms at its buds. [34] Darwinââ¬â¢s theory of evolution is based on three underlying principles: ariation in traits exist among individuals within a population, these variations can be passed from one generation to the next via inheritance, and that some forms of inherited traits provide individuals a higher chance of survival and reproduction than others. [11] Although Darwin developed his theory of evolution without any knowledge of the molecular basis of life, it has sinc e been determined that evolution is actually a molecular process based on genetic information, encoded in DNA, RNA, and proteins. At a molecular level, evolution is driven by the same types of mechanisms Darwin observed at the species level. One molecule undergoes diversification into many variations. One or more of those variants can be selected to be reproduced or amplified throughout a population over many generations. Such variations at the molecular level can be caused by mutations, such as deletions, insertions, inversions, or substitutions at the nucleotide level, which in turn affect protein structure and biological function. [11, 22] What is a Phylogeny? According to modern evolutionary theory, all organisms on earth have descended from a common ancestor, which means that any set of species, extant or extinct, is related. This relationship is called a phylogeny, and is represented by phylogenetic trees, which graphically represent the evolutionary history related to the species of interest (see Figure 2). Phylogenetics infers trees from observations about existing organisms using morphological, physiological, and molecular characteristics. Figure 2. Phylogeny of Mammalia. This phylogenetic tree shows the evolutionary relationships among six orders of Mammalian species (taxa). Taxa listed in grey are extinct. The ââ¬Å"tree of lifeâ⬠represents a phylogeny of all organisms, living and extinct. Other, more specialized species and molecular phylogenies are used to support comparative studies, test biogeographic hypotheses, evaluate mode and timing of speciation, infer amino acid sequence of extinct proteins, track the evolution of diseases, and even provide evidence in criminal cases. [19] Molecular Phylogenetics Karen Dowell 3 Understanding Phylogenetic Trees Before exploring statistical and bioinformatic methods for estimating phylogenetic trees from molecular data, itââ¬â¢s important to have a basic familiarity of the terms and elements common to these types of trees. See Figure 3. ) Figure 3. Basic elements of a phylogenetic tree. Phylogenetic trees are composed of branches, also known as edges, that connect and terminate at nodes. Branches and nodes can be internal or external (terminal). The terminal nodes at the tips of trees represent operational taxonomic units (OTUs). OTUs correspond to the molecular sequences or taxa (species) from which the tree was inferred. Internal nodes represent the last common ancestor (LCA) to all nodes that arise from that point. Trees can be made of a single gene from many taxa (a species tree) or multi-gene families (gene trees). [1, 10] A tree is considered to be ââ¬Å"rootedâ⬠if there is a particular node or outgroup (an external point of reference) from which all OTUs in the tree arises. You read "Phylogenetic" in category "Essay examples" The root is the oldest point in the tree and the common ancestor of all taxa in the analysis. In the absence of a known outgroup, the root can be placed in the middle of the tree or a rootless tree may be generated. Branches of a tree can be grouped together in different ways. (See Figure 4. ) Figure 4. Groups and associations of taxonomical units in trees. A monophyletic group consists of an internal LCA node and all OTUs arising from it. All members within the group are derived from a common ancestor and have inherited a set of unique common traits. A paraphyletic group excludes some of its descendents (for examples all mammals, except the marsupialia Molecular Phylogenetics Karen Dowell 4 taxa). And a polyphyletic group can be a collection of distantly related OTUs that are associated by a similar characteristic or phenotype, but are not directly descended from a common ancestor. 1, 17] Trees and Homology Evolution is shaped by homology, which refers to any similarity due to common ancestry. Similarly, phylogenetic trees are defined by homologous relationships. Paralogs are homologous sequences separated by a gene duplication event. Orthologs are homologous sequences separated by a speciation event (when one species diverges into two). Homologs can be either paralogs or orthologs . [1, 11, 22] Molecular phylogenetic trees are drawn so that branch length corresponds to amount of evolution (the percent difference in molecular sequences) between nodes. 1, 19] Figure 5. Understanding paralogs and orthologs. Paralogs are created by gene duplication events. (See Figure 5. ) Once a gene has been duplicated, all subsequent species in the phylogeny will inherit both copies of the gene, creating orthologs. Interestingly, evolutionary divergence of different species may result in many variations of a protein, all with similar structures and functions, but with very different amino acid sequences. Phylogenetic studies can trace the origin of such proteins to an ancestral protein family or gene. [1, 22] Figure 6. Mirror Phylogenies. Gene A and Gene A1 are paralogs, whereas all instances of Gene A are orthologs of each other in different Canid species. One way to ensure that paralogs and orthologs are appropriately referenced in a phylogenetic tree, and guard against misrepresentation due to missing or incomplete taxonomic information is to generate mirror phylogenies (see Figure 6) in which paralogs serve as each otherââ¬â¢s outgroup. [1, 4, 19, 22] Estimating Molecular Phylogenetic Trees Molecular phylogenetic trees are generated from character datasets that provides evolutionary content and context. Character data may consist of biomolecular sequence alignments of DNA, RNA, or amino acids, molecular markers, such as single nucleotide polymorphisms (SNPs) or restriction fragment length polymorphisms (RFLPs), morphology data, or information on gene order and content. Evolution is modeled as a process that changes the state of a character, such as the type of nucleotide (AGTC) at a Molecular Phylogenetics Karen Dowell 5 specific location in a DNA sequence; each character is a function that maps a set of taxa to distinct states. 1, 19] Note that most of the examples in this paper use DNA sequences as character data, but trees can be accurately estimated from many different types of molecular data. Figure 7. Evolution of a DNA Sequence Figure 7 illustrates how a molecular sequence might evolve over time as a result of multiple mutations that results small, but evolutionarily important changes in a nucleotide sequence. At the protein level, these changes may not initially affect prote in structure or function, but over time, they may eventually shape a new purpose for a protein within divergent species. 10, 19, 22] OTUs can be used to build an unrooted phylogenetic tree that clearly depicts a path of evolutionary change. Steps in Phylogenetic Analysis Although the nature and scope of phylogenetic studies may vary significantly and require different datasets and computational methods, the basic steps in any phylogenetic analysis remain the same: assemble and align a dataset, build (estimate) phylogenetic trees from sequences using computational methods and stochastic models, and statistically test and assess the estimated trees. 4, 19, 20] Assemble and Align Datasets The first step is to identify a protein or DNA sequence of interest and assemble a dataset consisting of other related sequences. For example, to explore relationships among different members of the Notch family of proteins, one might select DNA sequences for Notch1 through Notch4, in different specie s, such as human, dog, rat, and mouse, then perform a multiple sequence alignment to identify homologies. [1, 10, 13, 19, 20] There are a number of free, online tools available to simplify and streamline this process. DNA sequences of interest can be retrieved using NCBI BLAST or similar search tools. When evaluating a set of related sequences retrieved in a BLAST search, pay close attention to the score and E-value. A high score indicates the subject sequence retrieved with closely related to the sequence used to initiate the query. The smaller the E-value, the higher the probability that the homology reflects a true evolutionary relationship, as opposed to sequence similarity due to chance. As a general rule, sequences with E-values less than 10-5 are homologs of a query sequence. [10] Once sequences are selected and retrieved, multiple sequence alignment is created. This involves arranging a set of sequences in a matrix to identify regions of homology. Typically, gaps (one or more spaces in the alignment) are introduced in one or more sequences to represent insertions or deletions in the molecular code that may have occurred over time. Effective multiple sequence alignment hinged on gap analysisââ¬âdetermining where to insert gaps and how large to make them. There are many websites and software programs, such as ClustalW, MSA, MAFFT, and T-Coffee, designed to perform multiple sequence on a given set of molecular data. ClustalW is currently the most mature and most widely used. 1, 10. 19] Molecular Phylogenetics Karen Dowell 6 Building Phylogenetic Trees To build phylogenetic trees, statistical methods are applied to determine the tree topology and calculate the branch lengths that best describe the phylogenetic relationships of the aligned sequences in a dataset. Many different methods for building trees exist and no single method performs w ell for all types of trees and datasets. The most common computational methods applied include distance-matrix methods, and discrete data methods, such as maximum parsimony and maximum likelihood. 4, 17, 20] There are several software packages, such as Paup*, PAML, PHYLIP, that apply most popular methods. [4] Paup* is a commercially available program that implements a wide variety of methods for phylogenetic inference, including maximum likelihood analysis for DNA data using different models. Paup* also includes a set of exact and heuristic methods for searching optimal trees. PAML (Phylogenetic Analysis by Maximum Likelihood) is open-access set of programs for phylogenetic analysis and evolutionary model comparison. PAML includes many advanced modelsââ¬âDNA- and AAbased models as well as codon-based models that can be used to detect positive selection. Many of the programs in PAML can model heterogeneity of evolutionary rates among sequence sites using ? distributions, and evolutionary dynamics of different sequence regions (concatenated gene sequences). PHYLIP is another large suite of open-access programs for phylogenetic inference that estimates trees using numerous methods, including pairwise distance, maximum parsimony, and maximum likelihood. The maximum likelihood programs can handle a few simple stochastic models and have good tree searching capabilities. PHYLIP is generally considered good educational software for novice phylogeneticists. Distance-Matrix Methods Distance matrix methods compute a matrix of pairwise ââ¬Å"distancesâ⬠between sequences that approximate evolutionary distance. Distance-based methods tend to be in polynomial time and are quite fast in practice. These methods use clustering techniques to compute evolutionary distances, such as the number of nucleotide or amino acid substitutions between sequences, for all pairs of taxa. They then construct phylogenetic trees using algorithms based on functional relationships among distance values. There are several different distance-matrix methods, including the Unweighted Pair-Group Method with Arithmetic Mean (UPGMA), which uses a sequential clustering algorithm; the Transformed Distance Method, which uses an outgroup as a reference, then applies UPGMA; the Neighbor-Relations Method, which applies 4point condition to adjust the distance matrix, then applies UPGMA; and the Neighbor-Joining Method, which arranges OTUs in a star, the finds neighbors sequentially to minimize total length of tree. 4, 17] The following section on the UPGMA method provides a more detailed example of how distance-matrix methods work. UPGMA Method UPGMA produces rooted trees for which the edge lengths can be viewed as times measured by a molecular clock with a constant rate. This method uses a sequential clustering algorithm to identify two OTUs that are most similar (meaning they have th e shortest evolutionary distance and are most similar in sequence) and treat them as a single new composite OTU. This process is repeated iteratively until only two OTUs remain. The algorithm defines the distance (d) between two clusters Ci and Cj as the average distance between pairs of sequences from each cluster: Molecular Phylogenetics Karen Dowell 7 Where |Ci| and |Cj| are the number of sequences in clusters i and j. This sequential clustering process is visually described in Figure 8. In this example, the two most homologous sequences are 1 and 2. They are clustered into a new composite parent node (6), and the branch lengths (t1 and t2) are defined as 1/2d1,2. The next step is to search for the closest pair among remaining sequences and node 6. Pair 4 and 5 are identified and clustered into a new parent node (7), and the branch length for t4 and t5 is calculated. [4, 17] Figure 8. Sequential clustering of sequences using the UPGMA method. [17] In this interactive process, parent node 8 is created from pairs 7 and 3, and parent node 9 is created by clustering nodes 6 and 8. [4, 17] Thus, all sequences are clustered into a single evolutionary tree. The total time (t9) can be calculated as: D6,8 = 1/6 (d1,3 + d1,4 + d1,5 + d2,3 + d2,4 +d2,5) Discrete Data Methods Discrete data methods examine each column of a multiple sequence alignment dataset separately and search for the tree that best represents all this information. Although distance-based methods tend to be much faster than discrete data methods, they typically yield little information beyond the basic tree structure. Discrete data analyses, on the other hand, are information rich. These methods produce a separate tree for each column in the alignment, so it is possible to trace the evolution for specific elements within a given sequence, such as catalytic sites or regulatory regions. 10, 17, 19, 20) Commonly used discrete data methods include maximum parsimony, which searches for the most parsimonious tree that requires the least number of evolutionary changes to explain differences observed, maximum likelihood, which requires a probabilistic model for the process of nucleotide substitution, and Bayesian MCMC, which also requires a stochastic model of evolution, b ut creates a probability distribution on a set of trees or aspects of evolutionary history. [17, 19, 20] Discrete data methods are generally considered to produce the best estimates of evolutionary history. However, these methods can be computationally expensive, and it can take weeks or months to obtain a reasonable level of accuracy for moderate to large datasets with 100 or more OTUs. [19] Molecular Phylogenetics Maximum Parsimony Karen Dowell 8 Among the most widely used tree-estimation techniques, maximum parsimony applies a set of algorithms to search for the tree that requires the minimum number of evolutionary changes observed among the OTUs in the study. For example, Figure 9 lists four sample sequences from which phylogenetic trees could be inferred using maximum parsimony. Site Seq 1 2 3 4 1 A A A A 2 A G G G 3 G C A A 4 A C T G 5 G G A A 6 T T T T 7 G G C C 8 C C C C 9 A G A G Figure 9. Sample sequences for a maximum parsimony study [17] Maximum parsimony algorithms identify phylogenetically informative sites, meaning the site favors some trees over others. Consider the sequences in Figure 9: Site 1 is not informative, because all sequences at that site (in column 1) are A (Adenine), and no change in state is required to match any one sequence (1-4) to another. Similarly, Site 2 is not informative because all three trees require one change and there is no reason to favor one tree over another. Site 3 is not informative because all three trees require two changes. (See Figure 10). Figure 10. Site 3 trees all require one evolutionary change. [17] Site 4 is not informative because all three trees require three changes. No one tree can be identified as parsimonious. (See Figure 10 Figure 11. Site 4 trees all require three evolutionary changes. [17] Site 5 is informative because one tree requires only one nucleotide change, whereas the other two trees require 2 changes. In Figure 12, the first tree on the left, which requires only one nucleotide change, is identified as the maximum parsimony tree. Figure 12. Site 5 trees vary in the number of evolutionary changes required. [17] Molecular Phylogenetics Maximum Likelihood Karen Dowell 9 The maximum likelihood method requires a probabalistic model of evolution for estimating nucleotide substitution. This method evaluates competing hypotheses (trees and parameters) by selecting those with the highest likelihood, meaning those that render the observed data most plausible. The ikelihood of a hypothesis is defined as the probability of the data given that hypothesis. In phylogeny reconstruction, the hypotheses are the evolutionary tree (its topology and branch lengths) and any other parameters of the evolutionary model. [17, 20] The likelihood calculations required for evolutionary trees are far from straightforward and usually require complex computations that must allow for all possible unobserved sequen ces at the LCA nodes of hypothesized trees. This method specifies the transition probability from one nucleotide state to another in a time interval in each branch. For example, for a one-parameter model with rate of substitution ? per site per unit time, the probability that the nucleotide at time t is i is: The probability that the nucleotide at time t is j is: To set up a likelihood function, given x as the ancestral node and y and z as internal nodes, the probability of observing nucleotides i, j, k, l at the tips of the tree is computed as: Pxl(t1+t2+t3)Pxy(t1)Pyk(t2+t3)Pyz(t2)Pzi(t3)Pzj(t3) For the ancestral node (root) x, the probability of having nucleotide l in sequence 4 is calculated as: Pxl(t1+t2+t3) Because x, y, and z can be any one of four nucleotides (ACGT), it is necessary to sum over all possibilities to obtain the probability of observing the configuration of nucleotides i, j, k, l, in sequences 1, 2, 3, 4, for a given hypothetical tree (see Figure 13. ). This likelihood probability is calculated as: h(I,j,k,l)= [? gxPxl(t1+t2+t3)] [? Pxy(t1)Pyk(t2+t3)] [? Pyz(t2)Pzi(t3) Pzj(t3)] The appropriate likelihood function depends on the hypothetical tree and the evolutionary model used. (See Figure 13. ) [17] Figure 13. Different types of model trees for the derivation of the maximum likelihood function. 17] Molecular Phylogenetics Stochastic Models of Evolution Karen Dowell 10 Evolutionary changes in molecular sequences result from mutations, some of which occur by chance, others by natural selection. Rates of change can also differ among OTUs, depending on several factors ranging from GC content to genome size. To accurately estimate phylogenetic trees, assumptions must be made about the substitution process and those assumptions must be stated in the form of a stochastic evolutionary model. These probabilistic models are used to rank trees according to likelihood: P(data|tree). From a Bayesian perspective, they rank trees according to a posterior probability: P(tree|data). [17, 20] The objective of probabilistic models is to find likelihood or posterior probability of a particular taxonomic feature, then define and compute: P(x? |T,t ? ) Where x ? is xj for j=1â⬠¦n, T is a tree with n leaves with sequence j at leaf j, and t ? are tree edge lengths. [17] A few popular stochastic models of evolution include the single parameter Jukes-Cantor (JC) method, Kimura 2-parameter (K2P), Hasegawa-Kishino-Yano (HKY), and Equal-Input. Some software programs, such as Paup*, will automatically use a default model for the tree estimation method chosen. The JC method is the easiest one to comprehend, because it assumes that if a site changes its state, it changes with equal probability to the other states. This is not very realistic, however, as some sites are known to evolve more rapidly than others, and some sites may be invariable and not allowed to change at all. Determining how best to select the appropriate model is a topic of another paper (or papers) as there is no one model that incorporates all mutation rules and patterns across different species and macromolecules. 4, 17, 20] Hidden Markov Models Profile hidden Markov models (HMMs) are a form of Bayesian network that provides statistical models of the consensus structure of a sequence family. Gary Churchill at The Jackson Lab was the first evolutionary geneticist to propose using profile HMMs to model rates of evolution. Many software packages and web servi ces now apply HMMs to estimate phylogenetic relationships. [8] In the HMM format, each position in the model corresponds to a site in the sequence alignment. For each position, there are a number of possible states, each of which corresponds to a different rate of evolution. In addition, transitions between all possible rate-states at adjacent positions. Transition probabilities capture any tendency for patterns of rates to occur in successive sites. [2, 4] Assessing Trees Tree estimating algorithms generate one or more optimal trees. This set of possible trees is subjected to a series of statistical tests to evaluate whether one tree is better than another ââ¬â and if the proposed phylogeny is reasonable. Common methods for assessing trees include the Bootstrap and Jackknife Resampling methods, and analytical methods, such as parsimony, distance, and likelihood. To illustrate how these methods are used, consider the steps involved in a bootstrap analysis. Bootstrap Analysis A bootstrap is a statistical method for assessing trees that takes its name from the fact that it can ââ¬Å"pull itself up by its bootstrapsâ⬠and generate meaningful statistical distributions from almost nothing. Using bootstrap analysis, distributions that would otherwise be difficult to calculate exactly are estimated by repeated creation and analysis of artificial datasets. In a Non-parametric bootstrap, artificial datasets Molecular Phylogenetics Karen Dowell 11 generated by resampling from original data. In a parametric bootstrap, data is simulated according to hypothesis tested. The objective of any bootstrap analysis is to test whether the whole dataset supports the tree. [1, 4, 17] Figure 14 illustrates the basic steps in any bootstrap analysis. Sample datasets are automatically generated from an original dataset. Trees are then estimated from each sample dataset. The results are compiled and compared to determine a bootstrap consensus tree. Figure 14. Steps in a phylogenetic tree bootstrap analysis. [1] Phylogenetic Analysis Tools There are several good online tools and databases that can be used for phylogenetic analysis. These include PANTHER, P-Pod, PFam, TreeFam, and the PhyloFacts structural phylogenomic encyclopedia. Each of these databases uses different algorithms and draws on different sources for sequence information, and therefore the trees estimated by PANTHER, for example, may differ significantly from those generated by P-Pod or PFam. As with all bioinformatics tools of this type, it is important to test different methods, compare the results, then determine which database works best (according to consensus results, not researcher bias) for studies involving different types of datasets. In addition, to the phylogenetic programs already mentioned in this paper, a comprehensive list of more than 350 software packages, web-services, and other resources can be found here: http://evolution. genetics. washington. edu/phylip/software. html. PANTHER (pantherdb. org) Protein ANalysis Through Evolutionary Relationships, known by its acronym PANTHER, is a library of protein families and subfamilies indexed by function. Panther version 6. 1 contains 5547 protein families. Molecular Phylogenetics Karen Dowell 12 It categorizes proteins by evolutionary related proteins (families) and related proteins with same function (subfamilies). [8, 21, 26] PANTHER is composed of both a library and index. The library is a collection of ââ¬Å"booksâ⬠that represent a protein family as a collection of multiple sequence alignments, HMMs, and a family phylogenetic tree. Functional divergence within the tree is represented by dividing the parent tree into child trees and HMMs based on shared functions. These subfamilies enable database curators to more accurately capture functional divergence of protein sequences as inferred from genomic DNA. 25, 26] PANTHER database entries are annotated to molecular function, biological process and pathway with a proprietary PANTHER/X ontology system, which is supposed to be easier to understand than the more global standard Gene Ontology (GO). Database entries in PANTHER are generated through clustering of UniProt database using a BLAST-based similarity score. Trees are automatically generated based on multiple sequence alignments and parameters of the protein family HMMs using the Tree Inferred from Profile Score (TIPS) clustering algorithm. Scientific curators review all family trees, annotate each tree, and determine how best to divide them into subtrees using a tree-attribute viewer that tabulates annotations for sequences in a tree. In addition, trees and subfamilies are manually cross-checked and validated by curators. [25, 26] P-POD (ortholog. princeton. edu) The Princeton Protein Orthology Database (P-POD) combines results from multiple comparative methods with curated information culled from the literature. Designed to be a resource for experimental biologists seeking evolutionary information on genes on interest, P-POD employs a modular architecture, based on their Generic Model Organism Database (GMOD). P-POD can be accessed from their web service or downloaded to run on local computer systems. [12] P-POD accepts FASTA-formatted protein sequences as input, and performs comparative genomic analyses on those sequences using OrthoMCL and Jaccard clustering methods. The P-POD database contains both phylogenetic information and manually curated experimental results. The site also provides many links to sites rich in human disease and gene information. This tool may be particularly helpful for bioinformaticists and statisticians developing comparative genomic database tools and resources. Pfam (pfam. sanger. ac. uk/) PFam is a collection of protein families represented by multiple sequence alignments and HMMs. It contains models of protein clans, families, domains, and motifs, and uses HMMs representing conserved functional and structural domains. It is a large, widely used, actively curated mature database that has been available online since 1995. Pfam can be used to retrieve the domain architectures for a specific protein by conducting a search using a protein sequence against the Pfam library of HMMs. This database is also helpful for proteomes and protein domain architecture analysis. [6, 8, 24] There are two versions of the Pfam database: Pfamââ¬âB is generated automatically from ProDom, using PsiBLAST, an open access bioinformatics tool available through NCBI for identifying weak, but biologically relevant sequence similarities. Pfam-A is hand-curated from custom multiple sequence alignments. Pfam protein domain families are clustered with Mkdom2, and aligned with ProDomAlign. ProDom is a comprehensive set of protein domain families automatically generated from the SWISSPROT and TrEMBL sequence databases. Mkdom2 is a ProDom program used to make ProDom family clusters. Protein domain families in ProDom were aligned using an improved parallelized program called Molecular Phylogenetics Karen Dowell 13 ProDomAlign, developed in C++ using OpenMP. ProDomAlign is based on MultAlign, a program well suited for aligning very large sequence families with thousands of associated sequences. As of early 2008, Pfam matched 72 percent of known proteins sequences, and 95 percent of proteins for which there is a known structure. Within the Pfam database, 75 percent of sequences will have one match to Pfam-A, 19 percent to Pfam-B. There are also two versions of Pfam-A and Pfam-B. Pfam-ls handles global alignments, and Pfam-fs is optimized for local alignments. Interestingly, Pfam entries can be classified as ââ¬Å"unknown,â⬠but that doesnââ¬â¢t mean the protein is undocumented. Unknown entries can be proteins for which some information is known, but it has not been fully researched or cannot be adequately annotated. For example, Pfam entry PFO1816 is a LeucineRich Repeat Variant (LRV), which has a known structure (1LRV) available in the Protein Databank (pdb. rg). LRV repeat regions, which are found in many different proteins, are often involved in cell adhesion, DNA repair, and hormone receptionââ¬âbut identification of an LRV within a sequence encoding a protein doesnââ¬â¢t specifically reveal the proteinââ¬â¢s function. For studies involving a large number of protein searches, it may be more convenient to run Pfam locally on a client machine. The standalone Pfam system requires the HMMER2 software, the Pfam HMM libraries and a couple of additional files from the Pfam website to be installed on the client machine. HMMER is a freely distributable implementation of profile HMM software for protein sequence analysis. ) Once the initial search is complete, researchers can go to the Pfam website to further analyze select number of sequences using additional features on website. [6, 8, 24] TreeFam (TreeFam. org) TreeFam is a curated database of phylogenetic trees and orthology predictions for all animal gene families that focuses on gene sets from animals with completely sequenced genomes. Orthologs and paralogs are inferred from phylogenetic tree of gene family. Release 4 contains curated trees for 1314 families and automatically generated trees for another 14351 families. [16, 23] Like Pfam, TreeFam is a two-part database: TreeFam-B contains automatically generated trees, and TreeFam-A consists of manually curated trees. To automatically generate trees, an algorithm selects clusters of genes to create TreeFam-B ââ¬Å"seedsâ⬠from core species with high-quality reference genome sequences, first using BLAST to rapidly assemble an initial list of possible matches, then HMMER to expand and filter probable sequence matches for each TreeFam B seed family. The filtered alignment is fed into a neighbor-joining algorithm and a tree is constructed based on amino acid mismatch distances. For TreeFam version 4, the most current release, five ââ¬Å"cleanâ⬠family trees were built for each TreeFam B seed, two using a maximum likelihood tree generated using PHYML (one based on the protein alignment, the other on codon alignment), three using a neighbor joining tree, using different distance measurements based on codon alignments. 16, 23] Scientific curators then manually any correct errors (based on information in the literature) in automatically generated TreeFam-B trees. Curated TreeFam-B trees then become seeds for TreeFam-A trees. Clean TreeFam-A trees are build using three merging algorithms and bootstrapping to find the consensus tree of seven trees: two constrained maximum likelihood trees based on protein and codon alignment, and five unconstrained neighbor-joining trees generated using different distance measurements based on co don alignments. For both TreeFam-B and TreeFam-A families, orthologs and paralogs are inferred only from clean trees using Duplication/Loss Inference (DLI) algorithm that requires a species tree (NCBI taxonomy tree). [16, 23] Molecular Phylogenetics PhyloFacts (phylogenomics. berkeley. edu/phylofacts) Karen Dowell 14 PhyloFacts is an online phylogenomic encyclopedia for protein functional and structural classification. It contains more than 57,000 ââ¬Å"booksâ⬠for protein superfamilies and structural domains. Each book contains heterogenous data for protein families, including multiple sequence alignments, one or more phylogenetic trees, predicted 3-D protein structures, predicted functional subfamilies, taxonomic distributions, GO annotations, and PFAM domains. HMMs constructed for each family and subfamily permit novel sequences to be classified to different functional classes. [14] Unlike other databases mentioned in this paper, PhyloFacts seeks to correct and clarify annotation errors associated with computational methods for predicting protein function based on sequence homology. It uses a consensus approach that integrates many different prediction methods and sources of experimental data over an evolutionary tree. By applying evolutionary and structural clustering of proteins, PhyloFacts is able to analyze disparate datasets using multiple methods, identify potential errors in database annotations, and provide a mechanism for improving the accuracy of functional annotation in general. [14] PhyloFacts can be used to search for protein structure prediction or functional classification for a particular protein sequence. Researchers may also browse through protein family books and multiple sequence alignments, phylogenetic trees, HMMs and other pertinent information for proteins of interest. This webservice also provides many links to literature and other information sources. [14] Applied Molecular Phylogenetics Molecular phylogenetic studies have many diverse applications. As the amount of publically available molecular sequence data grows and methods for modeling evolution become more sophisticated and accessible, more and more biologists are incorporating phylogenetic analyses into their research trategy. Hereââ¬â¢s a sampling of how molecular phylogenetics might be applied. Tracing the evolution of man In one case study, molecular phylogenetic techniques were used to compare and analyze variation in DNA sequences using modern human and Neanderthal mitochondrial DNA (mtDNA). For this study, 206 modern human mtDNAs and parts of two Neanderthal mtDNAs sequences derived from skeletal remains were used to generate an initial dataset. Genetic distance was first estimated using the Jukes-Cantor single parameter model. Then the Kimura 2-Parameter model was used to distinguish between transition (replacement of one purine with another purine or one pyrimidine with another pyrimidine) and transversion (replacement of one purine with a pyrimidine or vice versa) probabilities with Kimura 2parameter model. A phylogenetic tree representing primate evolution was generated using pairwise genetic distances between primate Hypervariable regions I and II of mtDNA. [3] Chasing an epidemic: SARS Using publically available genomic data, it is possible to reconstruct the progression of the SARS epidemic over time and geographically. To conduct this phylogenetic analysis, researchers used the neighborjoining method to construct a phylogenetic tree of spike proteins in various coronaviruses and identify the viral host (a Himalyan palm civet). They then obtained 13 SARs genome sequences with documented information on the date and location of the sample. The neighbor-joining method and a distance matrix based on Jukes-Cantor model, were used to generate an epidemic tree, from which it was possible to identify the origin (date and location) of the virus by observing progression of mutations over time. 3] Molecular Phylogenetics Barking up the right tree Karen Dowell 15 Phylogenetics is increasingly incorporated into biological and biomedical research papers. When the canine genome was published, researchers used sequence data to estimate a comprehensive phylogeny of the canid family. Figure 15. Phylogenetic Tree of the Canid family This canid family phylogenetic tree is based on 15 kb of exon and intron sequence. It was constructed using the maximum parsimony method and represents the single most parsimonious tree. A good example of how phylogenies are referenced in the literature, this tree includes bootstrap values and Bayesian posterior probability values listed above and below internodes, respectively. Dashes indicate bootstrap values below 50%. In addition, divergence time in millions of years (Myr) is indicated for three nodes. [18] Seeing the Forest from the Trees Molecular phylogenetics is a broad, diverse field with many applications, supported by multiple computational and statistical methods. The sheer volumes of genomic data currently available (and rapidly growing) render molecular phylogenetics a key component of much biological research. Genome-scale studies on gene content, conserved gene order, gene expression, regulatory networks, metabolic pathways, functional genome annotation can all be enriched by evolutionary studies based on phylogenetic statistical analyses. [19, 25 27] Molecular phylogenies have fast become an integral part of biological research, pharmaceutical drug design, and bioinformatics techniques for protein structure prediction and multiple sequence alignment. Although not all molecular biologists and bioinformaticians may be familiar with the techniques described Molecular Phylogenetics Karen Dowell 16 in this paper, this is a rapidly growing and expanding field and there is ongoing need for novel algorithms to solve complex phylogeny reconstruction problems. References 1. Baldauf, SL (2003) ââ¬Å"Phylogeny for the faint of heart: a tutorial. â⬠Trends in Genetics, 19(6):345-351. 2. Brown, D, K Sjolander (2006) ââ¬Å"Functional Classification Using Phylogenomic Inference. â⬠PLos Computational Biology, 2(6):0479-0483. 3. Cristianini, N, and M Hahn (2007) Introduction to Computational Genomics: A Case Studies Approach. Cambridge University Press: Cambridge. 4. Durbin, R, S Eddy, A Krogh, G Mitchison (1998) Biological Sequence Analysis. Cambridge University Press: Cambridge. 5. Ewens, WJ, R Grant (2005) Statistical Methods in Bioinformatics. Springer Science and Business Media: New York. 6. Finn, RD, J Tate, J Mistry, PC Coggill, SJ Sammut, HR Hotz, G Ceric, K Forslund, SR Eddy, ELL Sonnhammer, A Bateman (2008) ââ¬Å"The Pfam protein families database. â⬠Nucleic Acids Research, 36:D281288. 7. Gabaldon, T (2008) ââ¬Å"Large-scale assignment of orthology: back to phylogenetics? Genome Biology, 9:235. 1-235. 6. 8. Gollery, M. (2008) Handbook of Hidden Markov Models in Bioinformatics. CRC Press, Taylor Francis Group: London. 9. Goodstadt, L, CP Ponting (2006) ââ¬Å"Phylogenetic Reconstruction of Orthology, Paralogy, and Conserved Synteny for Dog and Human. â⬠PLoS Computational Biology, 2(9):1134-1150. 10. Hall, BG. (2004) Phylogenetic Trees Made Easy: A How-To Manual, 2nd ed. Sinauer Ass ociates, Inc. : Sunderland, MA. 11. Hartwell, LH, L Hood, ML Goldberg, AE Reynolds, LM Silver, RC Veres (2008) Genetics: From Genes to Genomes, 3rd Ed. McGraw-Hill: New York. 12. Heinicke, S, MS Livstone, C Lu, R Oughtred, F Kang, SV Angiuoli, O White, D Botstein, K Dolinski (2007) ââ¬Å"The Princeton Protein Orthology Database (P-POD): A Comparative Genomics Analysis Tool for Biologists. â⬠PLoS ONE, 8:e766. 1-15. 13. Kortschak, RD, R Tamme (2001) ââ¬Å"Evolutionary analysis of vertebrate Notch genes. â⬠Dev Genes Evol, 211:350-354. 14. Krishnamurthy, N, DP Brown, D Kirshner, K Sjolander (2006) ââ¬Å"PhyloFacts: an online structural phylogenomic encyclopedia for protein functional and structural classification. â⬠Genome Biology, 7:R83. -13. 15. Kuzniar, A, RCHJ van Ham, S Pongor, JAM Leunissen (2008) ââ¬Å"The quest for orthologs: finding the corresponding gene across genomes. â⬠Trends in Genetics, 24(11):539-551. Molecular Phylogenetics Karen Dowell 17 16. Li, H, A Coghlan, J Ruan, LJ Coin, JK Heriche, L Osmotherly, R Li, T Liu, Z Zhang, L Bolund, GKS Wong, W Zheng, P Dehal, J Wang, R Durbin (2006) ââ¬Å "TreeFam: a curated database of phylgenetic trees of animal gene families. â⬠Nucleic Acids Research, 34:D573-580. 17. Li, WH (1997) Molecular Evolution. Sinauer Associates: Sunderland, MA. 18. Lindblad-Toh, K, CM Wade, TS Mikkelsen, EK Karlsson, DB Jaffe, M Kamal, M Clamp, JL Chang, EJ Kulbokas III, MC Zody, E Mauceli, X Xie, M Breen, RK Wayne, EA Ostrander, CP Ponting, F Galibert, DR Smith, PJ deJong, E Kirkness, P Alvarez, T Biagi, W Brockman, J Butler, C Chin, A Cook, J Cuff, MJ Daly, D DeCaprio, S Gnerre, M Grabherr, M Kellis, M Kleber, C Bardeleben, L Goodstadt, A Heger, C Hitte, L Kim, KP Koepfli, HG Parker, JP Pollinger, SMJ Searle, NB Sutter, R Thomas, C Webber, ES Lander (2005) ââ¬Å"Genome Sequence, Comparative Analysis and Haplotype Structure of the Domestic Dog. Nature, 438:803-819. 19. Linder, CR, T Warnow (2005) ââ¬Å"An overview of phylogeny reconstruction. â⬠In the Handbook of Computational Molecular Biology, Chapman and Hall/CRC Computer Information Science. 20. Lio, P, N Goldman (1998) ââ¬Å"Models of Molecular Evolution and Phylogeny. â⬠Genome Research, 8:12331244. 21. Mi, H, N Guo, A Kejariwal, PD Thomas (2007) ââ¬Å"PANTHER version 6: protein sequence and function evolution data with expanded representation of biological pathways. Nucleic Acids Research, 35:D247-252. 22. Patthy, Laszlo. (1999) Protein Evolution. Blackwell Science, Ltd: Malden, MA. 23. Ruan, J, H Li Z Chen, A Coghlan, LJM Coin, Y Guo, JK Heriche, Y Hu, K Kristiansen, R Li, T Liu, A Mose, J Qin, S Vang, AJ Vilella, A Ureta-Vidal, L Bolund, J Wang, R Durbin (2008) ââ¬Å"TreeFam: 2008 Update. â⬠Nucleic Acids Research, 36:D735-740. 24. Sammut, SJ, RD Finn, A Bateman (2008) ââ¬Å"Pfam 10 years on: 10000 families and still growing. â⬠Briefings in Bioinformatics, 9(3):210-219. 5. Thomas, PD, A Kejariwal, N Guo, H Mi, MJ Campbell, A Muruganujan, B Lazareva-Ulitsky (2006) ââ¬Å"Applications for protein sequence-function evolution data: mRNA/protein expression analysis and coding SNP scoring tools. â⬠Nucleic Acids Research, 34:W645-650. 26. Thomas, PD, MJ Campbell, A Kejariwal, H Mi, B Karlak, R Daverman, K Diemer, A Muruganujan, A Narechania. ââ¬Å"PANTHER: A Library of Protein Families and Subfamilies Indexed by Function. â⬠Genome Research, 13:2129-2141. 27. Warnow, T (2004) ââ¬Å"Computational Methods in Phylogeneticsâ⬠Computational Systems Biology Conference, Stanford, CA 28. Whelan, S, P Lio, N Goldman (2001) ââ¬Å"Molecular phylogenetics: state of the art methods for looking into the past. â⬠Trends in Genetics, 17(5):262-272. Molecular Phylogenetics Karen Dowell 18 Appendix Website Resources Phylogeny Programs. A University of Washington site formerly supported by the National Science Foundation. http://www. evolution. genetics. washington. edu/phylip/software. tml TreeFam Tree Families Database. http://wwww. treefam. org Protein Analysis Through Evolutionary Relationships (PANTHER) Classification System. http://www. pantherdb. org. 29. Pfam Database of Protein Families. http://pfam. sanger. ac. uk 30. Princeton Protein Orthology Database (P-POD). http://ppod. princeton. edu 31. Wikipedia. http://en. wikipedia. org/wiki/Tree_of_life(science) Cover Page The cover image is from a phylogeny of canid species that appeared i n Lindblad-Toh et al, 2005. [18] How to cite Phylogenetic, Essay examples
Monday, April 27, 2020
Literature - A Mirror Of Society Essays - Romanticism,
Literature - a Mirror of Society The literature of a country is affected and influenced by how the people of that country live. This paper will prove that The French Revolution greatly influenced 19th Century French Romanticism. First, the cultural values of the revolution will be identified. Then, the different aspects of Romanticism will be presented. The cultural values of The French Revolution and Romanticism will then be linked. Finally, literary examples will be shown to support this connection between the two movements. Before the Revolution, the citizens of France lived in a strict, confined society with no freedom to express their feelings. Government had imposed strong, unfair laws on the common people (Compton's Interactive Encyclopedia ?French Revolution?). They wanted a voice in a stable government with a strong economy (Johnson 105) and a strong sense of individuality and independence within the people. (Moss and Wilson 180) Eighteenth- century literature was much like the society in which it was produced, restrained. Society was divided into privileged and unprivileged classes, (Leinward 452) with Eighteenth- century writers focusing on the lives of the upper class. (Thompson 857) These writers followed ?formal rules?(Thorlby 282), and based their works on scientific observations and logic (Thompson 895). The Revolution gave the common people and writers more freedom to express feelings and stimulated them to use reason. According to Thompson, The Revolution ?had a major impact on Nineteenth- Century European Life.? (895) It sent a strong wave of emotion and revival throughout France (Peyre 59). This lead to new laws and ezdards for the citizens, including newer, less imposing literary ezdards. Romanticism marked a profound change in both literature and thought. Romanticism, according to Webster's Dictionary, is defined as ?a literary movement (as in early 19th century Europe) marked especially by an emphasis on the imagination and emotions and by the use of autobiographical material.? Although this may be true, there is no single commonly accepted definition of Romanticism, but it has some features upon which there is general agreement. First, it emphasized upon human reason, feeling, emotion, and expression (Compton's Interactive Encyclopedia, ?Romanticism?) while emphasizing the love of nature, beauty, and liberty. (Leinward 528-529) Thompson defines Romanticism as ? a major literary and cultural movement? that was inspired by the imaginations, inner feelings, and emotions of the Romantics. (895) If one term can be used to describe the forces that have shaped the modern world, it is Romanticism. (Peyre, 2) Romanticism has had such a profound effect on the world since the late 18th century that one author has called it ?the profoundest cultural transformation in human history since the invention of the city.? (Compton's Encyclopedia, ?Romanticism?) Harvey and Heseltine state that ?The outezding characteristic of 18th-century French literature had been attached to reason.... About the turn of the century.... literature became a matter of senses and emotions.? (633) They also say that the movement of Romanticism ?gave practical expression to the new spirit...? because it recognized that the bounds on literature were ?too rigid?. (634) There are many direct relations how the French Revolution influenced the French Romanticism that followed it in the Nineteenth- century. The French Revolution had a major impact on the timeline and progression of Romanticism. Vinaver states that ?Neither a revolt or a reaction, Romanticism was a revolutionary fulfillment... And this in turn explains why the European event known as the French Revolution is at once the climax [of Romanticism]...It's [French Revolution} date, 1789, conveniently divides the Pre- Romanticism [era] from the full flowering of the new culture.? (6) Romanticism starts in about 1774, but does not take off until the last decade of the 18th- century, the same time as the Revolution. The French Revolution provided for many of the problems and basis for many Romantic literary works. First of all, the political change brought by the Revolution, along with the intellectual reverberations brought upon Romanticism. (Harvey and Heseltine 634) Also, Thompson states that ? [Romanticism was] shaped by the ideals of the French Revolution.? (895) Finally, Vinaver declares that the Revolution served as ?a great source of the problems and tendencies of Romantic proper.? (6) The Revolution also inspired many writers to write romantically. Peyre points this out when
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