Inherit103VOCABULARYDefine the following terms in your own words.Intermediate Inheritancea type of inheritance in which the alleles (heterozygous phenotype) from each parent blend...

Inherit103 VOCABULARY Define the following terms in your own words. Intermediate Inheritance a type of inheritance in which the alleles (heterozygous phenotype) from each parent blend together two homozygous tratis, forming a mixed phenotype in the offspring Co-dominance Sex-Linked Genes genes that are located on the sex chromosomes of X or Y Polygenic Inheritance the inheritance of a trait governed by more than one gene (two or more genes) on a single character 1If the alleles do match up but the dominant trait is expressed in the phenotype then that means the genotype is: A.Heterozygous Recessive B.Homozygous Dominant C.Heterozygous Dominant D.Homozygous Recessive 2If the alleles do match up but the dominant trait is expressed in the phenotype then that means the genotype is: A.Heterozygous Recessive B.Homozygous Dominant C.Heterozygous Dominant D.Homozygous Recessive 3The image below shows two different flower species that are both the offspring of a red and white pure bred flower. Compare these offspring, how are they different? How are they similar? 4Classify the inheritance of each flower seen through these two offspring. Hint: Use the inheritance types you defined above. Rabbits can have a red (RR), white (rr), or brown (Rr) fur coat color. A rabbit breeder wants to have 25% of their rabbits have red fur, 25% have white, and the final 50% have brown fur. They have enough money to purchase 20 rabbits. Fur Coat Color Phenotypes (Genotypes) RedRR Whiterr BrownRr A. Fur coat color is inherited through what type of inheritance? Explain how you know. B. What type(s) of rabbits should he buy? Fill in a Punnett Square for every possible cross between the three genotypes. Remember rabbitsreproduce via sexual reproduction, so 2 individuals are always needed. Fill in the blanks for the percentage chance for each offspring fur color below each Punnett Square. The first Punnett Square has been completed as an example. There are 6 possible genotype combinations. SQUARE 1SQUARE 2 RRRr rRrRrrRr rRrRrrrr Red %White %Brown %Red %White %Brown % 0%0%100% SQUARE 3SQUARE 4 Rr R r Red %White %Brown %Red %White %Brown % 25%25%50% SQUARE 5SQUARE 6 Red %White %Brown %Red %White %Brown % *** Remember: A rabbit breeder wants to have 25% of their rabbits have red fur, 25% have white, and 50% have brown fur. They only have enough money to purchase 20 rabbits. *** C. Which Punnett Square above matches the desired percentages of 25% Red, 50% Brown, and 25% White? < select="">>>Square 4< d.="" how="" many="" rabbits="" of="" each="" genotype="" should="" they="" purchase?="" **="" make="" your="" recommendation="" on="" which="" type(s)="" of="" rabbits="" the="" breeder="" should="" purchase.="" **="" red="" #="" white="" #="" brown="" #="" there="" are="" many="" ways="" traits="" can="" be="" inherited.="" some="" traits="" are="" governed="" by="" alleles="" that="" are="" completely="" dominant="" over="" other="" alleles.="" other="" traits="" are="" governed="" by="" alleles="" that="" share="" dominance="" called="" co-dominance.="" to="" help="" better="" understand="" the="" rules="" of="" co-dominance="" we="" can="" look="" at="" certain="" species="" of="" chickens.="" parents="" ("pure"="" chickens)="" offspring="" chicken="" cross="" (applies="" to="" question="" #4="" below)="" fr="" fw="" fr="" fw="" (applies="" to="" question="" #5="" below)="" genotypes:="" red="" chicken="" white="" chicken="" red="" %="" white="" %="" red+white="" %="" frfr="" fwfw="" 1="" look="" at="" the="" two="" chickens="" to="" the="" right="" and="" their="" genotypes.="" what="" do="" younthink="" the="" letter="" r,="" f,="" and="" w="" stand="" for="" in="" their="" genotypes?="" f="Feathers," r="Red," and="" w="White" 2="" a="" pure="" white="" chicken="" is="" bred="" with="" a="" pure="" red="" chicken,="" the="" offspring="" of="" this="" breeding="" can="" be="" seen="" above.="" a.="" describe="" the="" characteristics="" of="" the="" offspring?="" b.="" what="" would="" be="" the="" geontype="" of="" the="" offspring?="" c.="" what="" doe="" these="" results="" tell="" us="" abou="" co-dominance?="" a.="" only="" the="" dominant="" trait="" is="" expressed="" in="" a="" heterozygous="" offspring="" b.="" only="" the="" recessive="" trait="" is="" expressed="" in="" a="" heterozygous="" offspring="" c.="" both="" traits="" are="" expressed="" in="" heterozygous="" offspring="" d.="" both="" traits="" are="" expressed="" in="" the="" homozygous="" offspring="" 3="" in="" dominant/recessive="" inheritance="" patterns,="" the="" dominant="" allele="" is="" always="" expressed="" when="" present.="" the="" recessive="" only="" is="" expressed="" when="" the="" dominant="" allele="" is="" not="" present.="" using="" your="" answers="" to="" the="" above,="" describe="" how="" co-dominance="" inheritance="" patterns="" differ="" from="" dominant/recessive="" inheritance="" patterns.="" a.="" we="" see="" both="" traits="" expressed="" in="" the="" heterozygous="" type="" b.="" this="" is="" an="" example="" of="" co-dominance="" c.="" this="" is="" an="" example="" of="" incomplete="" dominance="" d.="" this="" is="" an="" example="" of="" sex="" linked="" genes="" 4="" just="" like="" with="" other="" forms="" of="" inheritance="" punnett="" squares="" can="" be="" used="" to="" predict="" offspring.="" the="" parent="" genotypes="" of="" the="" chickens="" you="" saved="" are="" written="" on="" the="" square="" above.="" fill="" in="" the="" remaining="" squares="" in="" the="" punnett="" square="" above.="" 5="" what="" is="" the="" probability="" for="" each="" of="" the="" following="" outcomes?="" fill="" in="" the="" boxes="" for="" each="" phenotype="" above.="" **="" remember="" probability="" equals="" what="" you="" are="" looking="" for="" divided="" by="" total="" possible.="" **="" 6="" another="" example="" of="" co-dominance="" is="" near="" and="" dear="" to="" our="" hearts,="" literally,="" our="" blood="" types!!="" there="" are="" four="" main="" blood="" types,="" a,="" b,="" ab,="" and="" o="" which="" are="" governed="" not="" by="" two="" alleles,="" but="" three,="" ia="" (for="" type="" a),="" ib="" (for="" type="" b),="" and="" i="" (for="" type="" o).="" a="" and="" b="" alleles="" are="" both="" co-dominant="" over="" type="" o="" alleles,="" but="" not="" each="" other,="" which="" is="" why="" blood="" type="" ab="" exists="" where="" both="" features="" of="" a="" and="" b="" blood="" are="" present.="" ia="" ia="" i="" ia="" ia="" ia="" i="" ia="" i="" determine="" the="" probabilities="" of="" each="" blood="" type:="" a="" %="" b="" %="" ab="" %="" o="" %="" up="" until="" this="" point="" you="" know="" that="" genes="" are="" located="" on="" specific="" chromosomes="" at="" specific="" locations.="" however,="" there="" are="" many="" genes="" that="" are="" linked="" with="" the="" sex="" chromosomes,="" more="" specifically="" the="" x="" chromosome="" because="" it="" is="" larger.="" females="" have="" two="" xs="" (xx)="" while="" males="" (xy)="" only="" have="" the="" one="" x="" with="" their="" one="" y.="" due="" to="" this="" difference="" males="" are="" more="" likely="" to="" show="" a="" recessive="" sex-linked="" trait.="" for="" this="" activity="" you="" will="" be="" looking="" at="" the="" sex="" linked="" genes="" of="" eye="" color="" in="" fruit="" flies="" to="" better="" understand="" how="" sex="" linked="" genes="" determine="" phenotypes.="" in="" fruit="" flies,="" eye="" color="" is="" a="" sex="" linked="" trait="" and="" the="" red="" eye="" color="" is="" dominant="" to="" the="" white="" eye="" color.="" 1="" with="" that="" in="" mind,="" identify="" the="" sexes="" and="" eye="" colors="" of="" the="" flies="" based="" upon="" the="" following="" genotypes.="" genotype:="" xrxr="" xry="" xrxr="" xry="" xrxr="" sex:="">< select="">< select="">< select="">< select="">< select=""> Eye Color:< select="">< select="">< select="">< select="">< select=""> 2Identify a potential genotypes of these flies with the given traits: Eye Color:WhiteWhiteRedRed Sex:MaleFemaleMaleFemale Genotype: 3Show the cross of a white eyed female XrXr and a red-eyed male XRY. Fly Square 1 XrXrXrEye Color:WhiteWhiteRedRed XRSex:MalesFemalesMalesFemales Y#: 4Show a cross between a pure red eyed female and a white eyed male. Fly Square 2 Eye Color:WhiteWhiteRedRed Sex:MalesFemalesMalesFemales #: Genetics_RNA_ProteinSynth 2When two heterozygous genotypes are cross-bred, how many offspring will express the Recessive phenotype? A.1 out of 3incorrectC.1 out of 2 B.0 out of 4D.1 out of 4 6John and Jill are a married couple. John is a carrier of small feet. Jill is heterozygous for her hair. If Jill was homozygous for hair type, what would be the probability they would have a bald child with large feet. A.75%C.0% B.25%D.50%incorrect 10Cassandra performedtest crossto determine the genotype of her flower. punnett squareincorrect Mr. and Mrs. Davis have decided to have children. Predict the possible phenotype of their child. Mr. DavisMrs. Davis 14List ONE possible genotype for Mrs. Davis.Eeincorrect 15List ONE possible genotype for Mr. Davis.Bbincorrect 16What gamete would Mrs. Davis have to give for her child to have two eyes? A.BeC.eeincorrect B.BBD.be 17What gamete would Mr. Davis have to give for his child to have glittery skin? A.BEincorrectC.be B.bbD.bE 2Like bacteria and Archaea, RNA can be the genetic material of. (HINT: type of cell)(RNA Chapter)living organismsincorrect virusesincorrect 1Match each picture with it’s function. Select: ↓ acts like a vice for the message decodes the nitrogenous bases into amino acids takes notes from DNA to the ribosome 2Which word best describes life that’s based on RNA, and not DNA? A.primitiveC.complex B.plant-likeD.sophisticated 3A tRNA molecule contains all the following except A.an amino acid binding siteC.an anticodon B.a guanine-capD.a nucleotide sequence 4What is the name of Process 5? 5What is the name of Process 10? 6What is the biological compound found at Process 8? A.DNAC.tRNA B.RibosomeD.mRNA 7What is the specific name of the entire process in the image? 8All of the following can be found on an mRNA molecule EXCEPT A.one end with 200+ adeninesC.an anticodon B.a guanine-capD.ribose/phosphate backbone 9Multiple polypeptide chains come together to give the protein itsstructure.