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a fox is a kind of animal & an animal is a kind of living thing -> a fox is a kind of living <mask> | thing |
a fox is a kind of living thing & the color of fur is an inherited characteristic -> the <mask> color of a fox is an inherited characteristic for fox | fur |
a fox is a kind of living thing & the color of fur is an inherited characteristic -> the fur <mask> of a fox is an inherited characteristic for fox | color |
a fox is a kind of living thing & the color of fur is an inherited characteristic -> the fur color of a <mask> is an inherited characteristic for fox | fox |
a fox is a kind of living thing & the color of fur is an inherited characteristic -> the fur color of a fox is an <mask> characteristic for fox | inherited |
a fox is a kind of living thing & the color of fur is an inherited characteristic -> the fur color of a fox is an inherited <mask> for fox | characteristic |
a fox is a kind of living thing & the color of fur is an inherited characteristic -> the fur color of a fox is an inherited characteristic for <mask> | fox |
a fox is a kind of living thing & the fur color of a fox is an inherited characteristic for fox & genes are able to determine the inherited characteristics of a living thing -> the fox's <mask> determine the color of its fur | genes |
a fox is a kind of living thing & the fur color of a fox is an inherited characteristic for fox & genes are able to determine the inherited characteristics of a living thing -> the fox's genes <mask> the color of its fur | determine |
a fox is a kind of living thing & the fur color of a fox is an inherited characteristic for fox & genes are able to determine the inherited characteristics of a living thing -> the fox's genes determine the <mask> of its fur | color |
a fox is a kind of living thing & the fur color of a fox is an inherited characteristic for fox & genes are able to determine the inherited characteristics of a living thing -> the fox's genes determine the color of its <mask> | fur |
proteins are made of a chain of 20 amino acids & genetic information can be used for making proteins -> genetic <mask> are used to make proteins with amino acids | information |
proteins are made of a chain of 20 amino acids & genetic information can be used for making proteins -> genetic information are <mask> to make proteins with amino acids | used |
proteins are made of a chain of 20 amino acids & genetic information can be used for making proteins -> genetic information are used to <mask> proteins with amino acids | make |
proteins are made of a chain of 20 amino acids & genetic information can be used for making proteins -> genetic information are used to make <mask> with amino acids | proteins |
proteins are made of a chain of 20 amino acids & genetic information can be used for making proteins -> genetic information are used to make proteins with <mask> acids | amino |
proteins are made of a chain of 20 amino acids & genetic information can be used for making proteins -> genetic information are used to make proteins with amino <mask> | acids |
genetic information are used to make proteins with amino acids & dna contains the genetic information -> genetic <mask> in dna are used to make proteins with amino acids | information |
genetic information are used to make proteins with amino acids & dna contains the genetic information -> genetic information in <mask> are used to make proteins with amino acids | dna |
genetic information are used to make proteins with amino acids & dna contains the genetic information -> genetic information in dna are <mask> to make proteins with amino acids | used |
genetic information are used to make proteins with amino acids & dna contains the genetic information -> genetic information in dna are used to <mask> proteins with amino acids | make |
genetic information are used to make proteins with amino acids & dna contains the genetic information -> genetic information in dna are used to make <mask> with amino acids | proteins |
genetic information are used to make proteins with amino acids & dna contains the genetic information -> genetic information in dna are used to make proteins with <mask> acids | amino |
genetic information are used to make proteins with amino acids & dna contains the genetic information -> genetic information in dna are used to make proteins with amino <mask> | acids |
genetic information in dna are used to make proteins with amino acids & a protein made by the dna has an incorrect amino acid -> the genetic <mask> in the dna is incorrect | information |
genetic information in dna are used to make proteins with amino acids & a protein made by the dna has an incorrect amino acid -> the genetic information in the <mask> is incorrect | dna |
light eyes are a recessive trait for human & jessica is a human with light eyes -> jessica has a <mask> trait of light eyes | recessive |
light eyes are a recessive trait for human & jessica is a human with light eyes -> jessica has a recessive <mask> of light eyes | trait |
light eyes are a recessive trait for human & jessica is a human with light eyes -> jessica has a recessive trait of <mask> eyes | light |
light eyes are a recessive trait for human & jessica is a human with light eyes -> jessica has a recessive trait of light <mask> | eyes |
jessica has a recessive trait of light eyes & receiving the recessive gene for a trait from each parent causes the offspring to express that recessive trait -> jessica <mask> the recessive gene from each of her parent | received |
jessica has a recessive trait of light eyes & receiving the recessive gene for a trait from each parent causes the offspring to express that recessive trait -> jessica received the <mask> gene from each of her parent | recessive |
jessica has a recessive trait of light eyes & receiving the recessive gene for a trait from each parent causes the offspring to express that recessive trait -> jessica received the recessive <mask> from each of her parent | gene |
jessica has a recessive trait of light eyes & receiving the recessive gene for a trait from each parent causes the offspring to express that recessive trait -> jessica received the recessive gene from each of her <mask> | parent |
one parent has a trait of red flower & one parent has a trait of white flower & incomplete dominance is when offspring exhibit a combination of a property caused by the genes of its parents & color is a kind of property -> the <mask> will exhibit a combination of red and white color on its flower by incomplete dominance | offspring |
one parent has a trait of red flower & one parent has a trait of white flower & incomplete dominance is when offspring exhibit a combination of a property caused by the genes of its parents & color is a kind of property -> the offspring will <mask> a combination of red and white color on its flower by incomplete dominance | exhibit |
one parent has a trait of red flower & one parent has a trait of white flower & incomplete dominance is when offspring exhibit a combination of a property caused by the genes of its parents & color is a kind of property -> the offspring will exhibit a <mask> of red and white color on its flower by incomplete dominance | combination |
one parent has a trait of red flower & one parent has a trait of white flower & incomplete dominance is when offspring exhibit a combination of a property caused by the genes of its parents & color is a kind of property -> the offspring will exhibit a combination of <mask> and white color on its flower by incomplete dominance | red |
one parent has a trait of red flower & one parent has a trait of white flower & incomplete dominance is when offspring exhibit a combination of a property caused by the genes of its parents & color is a kind of property -> the offspring will exhibit a combination of red and <mask> color on its flower by incomplete dominance | white |
one parent has a trait of red flower & one parent has a trait of white flower & incomplete dominance is when offspring exhibit a combination of a property caused by the genes of its parents & color is a kind of property -> the offspring will exhibit a combination of red and white <mask> on its flower by incomplete dominance | color |
one parent has a trait of red flower & one parent has a trait of white flower & incomplete dominance is when offspring exhibit a combination of a property caused by the genes of its parents & color is a kind of property -> the offspring will exhibit a combination of red and white color on its <mask> by incomplete dominance | flower |
one parent has a trait of red flower & one parent has a trait of white flower & incomplete dominance is when offspring exhibit a combination of a property caused by the genes of its parents & color is a kind of property -> the offspring will exhibit a combination of red and white color on its flower by incomplete <mask> | dominance |
the offspring will exhibit a combination of red and white color on its flower by incomplete dominance & pink is a combination of red and white -> the <mask> will exhibit pink flowers by incomplete dominance | offspring |
the offspring will exhibit a combination of red and white color on its flower by incomplete dominance & pink is a combination of red and white -> the offspring will <mask> pink flowers by incomplete dominance | exhibit |
the offspring will exhibit a combination of red and white color on its flower by incomplete dominance & pink is a combination of red and white -> the offspring will exhibit <mask> flowers by incomplete dominance | pink |
the offspring will exhibit a combination of red and white color on its flower by incomplete dominance & pink is a combination of red and white -> the offspring will exhibit pink <mask> by incomplete dominance | flowers |
the offspring will exhibit a combination of red and white color on its flower by incomplete dominance & pink is a combination of red and white -> the offspring will exhibit pink flowers by incomplete <mask> | dominance |
gray fur is heterozygous dominant for mice & two gray mice are crossed to produce offspring -> <mask> heterozygous dominant mice are crossed to produce offspring | two |
gray fur is heterozygous dominant for mice & two gray mice are crossed to produce offspring -> two heterozygous <mask> mice are crossed to produce offspring | dominant |
gray fur is heterozygous dominant for mice & two gray mice are crossed to produce offspring -> two heterozygous dominant <mask> are crossed to produce offspring | mice |
gray fur is heterozygous dominant for mice & two gray mice are crossed to produce offspring -> two heterozygous dominant mice are <mask> to produce offspring | crossed |
gray fur is heterozygous dominant for mice & two gray mice are crossed to produce offspring -> two heterozygous dominant mice are crossed to <mask> offspring | produce |
gray fur is heterozygous dominant for mice & two gray mice are crossed to produce offspring -> two heterozygous dominant mice are crossed to produce <mask> | offspring |
two heterozygous dominant mice are crossed to produce offspring & if a heterozygous dominant organism is crossed / bred with a heterozygous dominant organism , then the offspring will have a 25% probability of being homozygous recessive -> the <mask> will have 25% probability to be homozygous recessive | offspring |
two heterozygous dominant mice are crossed to produce offspring & if a heterozygous dominant organism is crossed / bred with a heterozygous dominant organism , then the offspring will have a 25% probability of being homozygous recessive -> the offspring will have 25% <mask> to be homozygous recessive | probability |
two heterozygous dominant mice are crossed to produce offspring & if a heterozygous dominant organism is crossed / bred with a heterozygous dominant organism , then the offspring will have a 25% probability of being homozygous recessive -> the offspring will have 25% probability to be homozygous <mask> | recessive |
the offspring will have 25% probability to be homozygous recessive & white fur is homozygous recessive for mice -> the <mask> will have 25% probability to have white fur | offspring |
the offspring will have 25% probability to be homozygous recessive & white fur is homozygous recessive for mice -> the offspring will have 25% <mask> to have white fur | probability |
the offspring will have 25% probability to be homozygous recessive & white fur is homozygous recessive for mice -> the offspring will have 25% probability to have <mask> fur | white |
the offspring will have 25% probability to be homozygous recessive & white fur is homozygous recessive for mice -> the offspring will have 25% probability to have white <mask> | fur |
two heterozygous dominant mice are crossed to produce offspring & if a heterozygous dominant organism is crossed / bred with a heterozygous dominant organism , then the offspring will have a 25% probability of being homozygous dominant -> the <mask> will have 25% probability to be homozygous dominant | offspring |
two heterozygous dominant mice are crossed to produce offspring & if a heterozygous dominant organism is crossed / bred with a heterozygous dominant organism , then the offspring will have a 25% probability of being homozygous dominant -> the offspring will have 25% <mask> to be homozygous dominant | probability |
two heterozygous dominant mice are crossed to produce offspring & if a heterozygous dominant organism is crossed / bred with a heterozygous dominant organism , then the offspring will have a 25% probability of being homozygous dominant -> the offspring will have 25% probability to be homozygous <mask> | dominant |
the offspring will have 25% probability to be homozygous dominant & black fur is homozygous dominant for mice -> the <mask> will have 25% probability to have black fur | offspring |
the offspring will have 25% probability to be homozygous dominant & black fur is homozygous dominant for mice -> the offspring will have 25% <mask> to have black fur | probability |
the offspring will have 25% probability to be homozygous dominant & black fur is homozygous dominant for mice -> the offspring will have 25% probability to have <mask> fur | black |
the offspring will have 25% probability to be homozygous dominant & black fur is homozygous dominant for mice -> the offspring will have 25% probability to have black <mask> | fur |
two heterozygous dominant mice are crossed to produce offspring & if a heterozygous dominant organism is crossed / bred with a heterozygous dominant organism , then the offspring will have a 50% probability of being heterozygous dominant -> the <mask> will have 50% probability of being heterozygous dominant | offspring |
two heterozygous dominant mice are crossed to produce offspring & if a heterozygous dominant organism is crossed / bred with a heterozygous dominant organism , then the offspring will have a 50% probability of being heterozygous dominant -> the offspring will have 50% <mask> of being heterozygous dominant | probability |
two heterozygous dominant mice are crossed to produce offspring & if a heterozygous dominant organism is crossed / bred with a heterozygous dominant organism , then the offspring will have a 50% probability of being heterozygous dominant -> the offspring will have 50% probability of being heterozygous <mask> | dominant |
the offspring will have 50% probability of being heterozygous dominant & gray fur is heterozygous dominant for mice -> the <mask> will have 50% probability to have gray fur | offspring |
the offspring will have 50% probability of being heterozygous dominant & gray fur is heterozygous dominant for mice -> the offspring will have 50% <mask> to have gray fur | probability |
the offspring will have 50% probability of being heterozygous dominant & gray fur is heterozygous dominant for mice -> the offspring will have 50% probability to have <mask> fur | gray |
the offspring will have 50% probability of being heterozygous dominant & gray fur is heterozygous dominant for mice -> the offspring will have 50% probability to have gray <mask> | fur |
the offspring will have 25% probability to have white fur & the offspring will have 25% probability to have black fur & the offspring will have 50% probability to have gray fur -> the <mask> will have 25% probability to have white fur, 25% to have black fur, and 50% to have gray fur | offspring |
the offspring will have 25% probability to have white fur & the offspring will have 25% probability to have black fur & the offspring will have 50% probability to have gray fur -> the offspring will have 25% <mask> to have white fur, 25% to have black fur, and 50% to have gray fur | probability |
the offspring will have 25% probability to have white fur & the offspring will have 25% probability to have black fur & the offspring will have 50% probability to have gray fur -> the offspring will have 25% probability to have <mask> fur, 25% to have black fur, and 50% to have gray fur | white |
the offspring will have 25% probability to have white fur & the offspring will have 25% probability to have black fur & the offspring will have 50% probability to have gray fur -> the offspring will have 25% probability to have white fur, 25% to have <mask> fur, and 50% to have gray fur | black |
the offspring will have 25% probability to have white fur & the offspring will have 25% probability to have black fur & the offspring will have 50% probability to have gray fur -> the offspring will have 25% probability to have white fur, 25% to have black fur, and 50% to have <mask> fur | gray |
the offspring will have 25% probability to have white fur & the offspring will have 25% probability to have black fur & the offspring will have 50% probability to have gray fur -> the offspring will have 25% probability to have white fur, 25% to have black fur, and 50% to have gray <mask> | fur |
the thickness of the parts of an organism is an inherited characteristic & inheriting is when an inherited characteristic is copied / is passed from parent to offspring by genetics / dna -> <mask> can inherit the thickness of the parts of their parents by genetics | offspring |
the thickness of the parts of an organism is an inherited characteristic & inheriting is when an inherited characteristic is copied / is passed from parent to offspring by genetics / dna -> offspring can <mask> the thickness of the parts of their parents by genetics | inherit |
the thickness of the parts of an organism is an inherited characteristic & inheriting is when an inherited characteristic is copied / is passed from parent to offspring by genetics / dna -> offspring can inherit the <mask> of the parts of their parents by genetics | thickness |
the thickness of the parts of an organism is an inherited characteristic & inheriting is when an inherited characteristic is copied / is passed from parent to offspring by genetics / dna -> offspring can inherit the thickness of the <mask> of their parents by genetics | parts |
the thickness of the parts of an organism is an inherited characteristic & inheriting is when an inherited characteristic is copied / is passed from parent to offspring by genetics / dna -> offspring can inherit the thickness of the parts of their <mask> by genetics | parents |
the thickness of the parts of an organism is an inherited characteristic & inheriting is when an inherited characteristic is copied / is passed from parent to offspring by genetics / dna -> offspring can inherit the thickness of the parts of their parents by <mask> | genetics |
a trunk is a part of a tree for supporting the tree & a pecan tree is a kind of tree -> a <mask> is a part of a pecan tree for supporting the tree | trunk |
a trunk is a part of a tree for supporting the tree & a pecan tree is a kind of tree -> a trunk is a <mask> of a pecan tree for supporting the tree | part |
a trunk is a part of a tree for supporting the tree & a pecan tree is a kind of tree -> a trunk is a part of a <mask> tree for supporting the tree | pecan |
a trunk is a part of a tree for supporting the tree & a pecan tree is a kind of tree -> a trunk is a part of a pecan <mask> for supporting the tree | tree |
a trunk is a part of a tree for supporting the tree & a pecan tree is a kind of tree -> a trunk is a part of a pecan tree for <mask> the tree | supporting |
a trunk is a part of a tree for supporting the tree & a pecan tree is a kind of tree -> a trunk is a part of a pecan tree for supporting the <mask> | tree |
offspring can inherit the thickness of the parts of their parents by genetics & a trunk is a part of a pecan tree for supporting the tree -> the <mask> of a pecan tree can inherit the thickness of its parents' trunk | offspring |
offspring can inherit the thickness of the parts of their parents by genetics & a trunk is a part of a pecan tree for supporting the tree -> the offspring of a <mask> tree can inherit the thickness of its parents' trunk | pecan |
offspring can inherit the thickness of the parts of their parents by genetics & a trunk is a part of a pecan tree for supporting the tree -> the offspring of a pecan <mask> can inherit the thickness of its parents' trunk | tree |
offspring can inherit the thickness of the parts of their parents by genetics & a trunk is a part of a pecan tree for supporting the tree -> the offspring of a pecan tree can <mask> the thickness of its parents' trunk | inherit |
offspring can inherit the thickness of the parts of their parents by genetics & a trunk is a part of a pecan tree for supporting the tree -> the offspring of a pecan tree can inherit the <mask> of its parents' trunk | thickness |
offspring can inherit the thickness of the parts of their parents by genetics & a trunk is a part of a pecan tree for supporting the tree -> the offspring of a pecan tree can inherit the thickness of its parents' <mask> | trunk |
the offspring of a pecan tree can inherit the thickness of its parents' trunk & the parent pecan tree has a thick trunk -> the <mask> of the pecan tree can inherit the thick trunk from its parent | offspring |
the offspring of a pecan tree can inherit the thickness of its parents' trunk & the parent pecan tree has a thick trunk -> the offspring of the <mask> tree can inherit the thick trunk from its parent | pecan |