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NYS LAB Relationships and Biodiversity. Click on the Electrophoresis Links below: http://www.dnalc.org/ddnalc/resources/electrophoresis.html http://bcs.whfreeman.com/biochem5/cat_040/ch04/ch04xd02.htm http://www.sumanasinc.com/webcontent/anisamples/majorsbiology/gelelectrophoresis.html
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NYS LABRelationships and Biodiversity SACCONE POWERPOINT
Click on the Electrophoresis Links below: • http://www.dnalc.org/ddnalc/resources/electrophoresis.html • http://bcs.whfreeman.com/biochem5/cat_040/ch04/ch04xd02.htm • http://www.sumanasinc.com/webcontent/anisamples/majorsbiology/gelelectrophoresis.html • http://www.tvdsb.on.ca/westmin/science/sbioac/genetics/Electro.htm NYS LABRelationships & Biodiversity SACCONE POWERPOINT
Simulated Gel Electrophoresis http://www.tvdsb.on.ca/westmin/science/sbioac/genetics/Electro.htm http://www.sumanasinc.com/webcontent/anisamples/majorsbiology/gelelectrophoresis.html SACCONE POWERPOINT
Chemical characteristics of plants used to compare & determine relationships. Chromatographyclick on the link below! http://www.wooster.edu/chemistry/analytical/gc/default.html SACCONE POWERPOINT
Chromatography is also used to separate chemicals. SACCONE POWERPOINT
DNA Hybridization SACCONE POWERPOINT
DNA Hybridization shows that the Red panda & the Giant Panda are related as a result of convergent evolution. SACCONE POWERPOINT
Botana curus Physical characteristics of plants used to compare & determine relationships SACCONE POWERPOINT
Physical characteristics of plants used to compare & determine relationships SACCONE POWERPOINT
Botana curus Physical characteristics of plants used to compare & determine relationships SACCONE POWERPOINT
Botana curus SACCONE POWERPOINT
Botana curus SACCONE POWERPOINT
Botana curus SACCONE POWERPOINT
Physical characteristics of plants used to compare & determine relationships SACCONE POWERPOINT
Physical characteristics of plants used to compare & determine relationships SACCONE POWERPOINT
Species X Physical characteristics of plants used to compare & determine relationships SACCONE POWERPOINT
Physical characteristics of plants used to compare & determine relationships SACCONE POWERPOINT
Species X SACCONE POWERPOINT
Physical characteristics of plants used to compare & determine relationships SACCONE POWERPOINT
Species Y Physical characteristics of plants used to compare & determine relationships SACCONE POWERPOINT
Species Z Physical characteristics of plants used to compare & determine relationships SACCONE POWERPOINT
Physical characteristics of plants used to compare & determine relationships SACCONE POWERPOINT
Species Z Physical characteristics of plants used to compare & determine relationships SACCONE POWERPOINT
Microscopic Stem Structure Physical characteristics of plants used to compare & determine relationships SACCONE POWERPOINT
Complete the DNA compliment T C A T G C SACCONE POWERPOINT
Genetic Code • A genetic code contains the information for the sequence of amino acids in a particular protein • This code is present in mRNA molecules and is three bases long. • This is known as a codon Ex: UAG - is a codon SACCONE POWERPOINT
mRNAGenetic codes SACCONE POWERPOINT
Messenger RNA (mRNA) • When portions of DNA molecules unwind and separate, RNA nucleotides pair with complimentary bases on the DNA strand. This forms a mRNA that is complimentary to the DNA strand • The sequence of nucleotides in the mRNA contain the genetic code • The genetic code for each amino acid is a sequence of three nucleotides forming a codon SACCONE POWERPOINT
Messenger RNA (mRNA) • Example: Here the mRNA is complimentary to the DNA. • The DNA serves as the original template. DNAmRNA T A A U C G (A:T & G:C in RNA use U instead of T) SACCONE POWERPOINT