Introduction to genetics: Difference between revisions

Many traits are inherited in a more complicated way than the example above. This can happen when there are several genes involved, each contributing a small part to the end result. Tall people tend to have tall children because their children get a package of many alleles that each contribute a bit to how much they grow. However, there are not clear groups of "short people" and "tall people", like there are groups of people with brown or red hair. This is because of the large number of genes involved; this makes the trait very variable and people are of many different heights.<ref>[http://www.childrensnyp.org/mschony/P02134.html Multifactorial Inheritance] Health Library, Morgan Stanley Children's Hospital, Accessed 20 May 2008</ref> Despite a common misconception, the green/blue eye traits are also inherited in this complex inheritance model.<ref name=Athro>[http://www.athro.com/evo/gen/inherit1.html#uncertainty Eye color is more complex than two genes], Athro Limited, Accessed 27 November 2010</ref> Inheritance can also be complicated when the trait depends on interaction between genetics and environment. For example, malnutrition does not change traits like eye color, but can stunt growth.<ref>{{cite web |url=http://www.med.umich.edu/opm/newspage/2003/kidheight.htm |title=Low income kids' height doesn't measure up by age 1 |publisher=University of Michigan Health System |accessdate=May 20, 2008 |deadurlurl-status=yesdead |archiveurl=https://web.archive.org/web/20080526034018/http://www.med.umich.edu/opm/newspage/2003/kidheight.htm |archivedate=26 May 2008 |df=dmy-all }}</ref>

The function of genes is to provide the information needed to make molecules called [[protein]]s in cells.<ref name=Utah>{{Cite book| title =University of Utah Genetics Learning Center animated tour of the basics of genetics| publisher =Howstuffworks.com| url =http://learn.genetics.utah.edu/units/basics/tour| accessdate =2008-01-24| deadurlurl-status =yesdead| archiveurl =https://web.archive.org/web/20080210023634/http://learn.genetics.utah.edu/units/basics/tour/| archivedate =10 February 2008| df =dmy-all}}</ref> Cells are the smallest independent parts of organisms: the human body contains about 100 trillion cells, while very small organisms like [[bacteria]] are just a single cell. A cell is like a miniature and very complex factory that can make all the parts needed to produce a copy of itself, which happens when cells [[cell division|divide]]. There is a simple division of labor in cells—genes give instructions and proteins carry out these instructions, tasks like building a new copy of a cell, or repairing damage.<ref name=NIGMS>[http://publications.nigms.nih.gov/structlife/chapter1.html The Structures of Life] National Institute of General Medical Sciences, Accessed 20 May 2008</ref> Each type of protein is a specialist that only does one job, so if a cell needs to do something new, it must make a new protein to do this job. Similarly, if a cell needs to do something faster or slower than before, it makes more or less of the protein responsible. Genes tell cells what to do by telling them which proteins to make and in what amounts.