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surgeondiscoversnew anatomical variation
adhesive density , flow characteristics , cure rate , gel time , carrier composition(passive) can be influenced by2?This variation
by Nack Ballard(passive) invented byNackgammon - variation
practicescausinganatomical change
how genetic factors interact with other non - genetic and epigenetic factorsto influencephenotypic variation
in that it may potentially produce complications not only because it is a complex procedure but alsocausesanatomical changes
However , the different polymorphisms identified in the two maize genes and in the rice gene indicatemay causephenotypic variation
by genetic differences and that we had the power to identify small - effect alleles(passive) was ... caused byphenotypic variation
This natural degenerative processcan causeanatomical changes
in timemight causeanatomical changes
by disease(passive) caused byanatomical changes
this abnormal cellular activity begins to affect body tissue and structurescausinganatomical changes
a particular patient 's disease state(passive) caused byanatomical changes
the previous procedure or that have occurred over me(passive) caused byanatomical changes
by the surgery(passive) caused byanatomical changes
prior surgery(passive) caused byanatomical changes
by previous implants(passive) caused byanatomical changes
by breast cancer(passive) caused byanatomical changes
breast cancer(passive) caused byanatomical changes
by small genetic differences(passive) caused byphenotypic variation
variation in specific locican causephenotypic variation
the underlying genetic complexity resulting from multiple interacting loci(passive) is caused byPhenotypic variation
motion of the extremity(passive) caused byanatomical changes
by tumor growth(passive) resulted byanatomical changes
by genetic differences(passive) was ... causedphenotypic variation
by genetic differences(passive) caused byPhenotypic variation
genomic variationinfluencesphenotypic variation
different genetic backgrounds(passive) caused byphenotypic variation
variation in genetic factorscausesphenotypic variation
Genes and/or environmental factorscausephenotypic variation
by growth conditions or environmental factors(passive) caused byphenotypic variation
multiple genomic regionsmay influencephenotypic variation
potential genesinfluencingphenotypic variation
differences among individuals in the composition of their DNA sequences / genes Genetic variationoften causesphenotypic variation
Allelic variations at these locicausephenotypic variation
the specific genetic variationcausesphenotypic variation
the underlying genecausingphenotypic variation
several individual loci were revealedto influencephenotypic variation
the alteration in our genescausingphenotypic variation
by environment , genetics , and developmental stage(passive) is influenced byphenotypic variation
to rodent deathleadingto rodent death
to variation in gene expression and other traitscontributesto variation in gene expression and other traits
to phenotypic changes in a populationcan contributeto phenotypic changes in a population
to the risk of common diseasemay significantly contributeto the risk of common disease
to phenotypic variationmight contributeto phenotypic variation
to significant genomic variationleadsto significant genomic variation
to heritable phenotypic divergence in ecologically relevant traits in natural plant populationscontributesto heritable phenotypic divergence in ecologically relevant traits in natural plant populations
the adaptive potential of an individual speciescan ... influencethe adaptive potential of an individual species
to complex traitscan contributeto complex traits
broad phenotypic effects in animalsmay causebroad phenotypic effects in animals
individual gene terminfluencingindividual gene term
to the ability of plants to quickly adapt to changes in the environment without sequence changes in the genomethus contributesto the ability of plants to quickly adapt to changes in the environment without sequence changes in the genome
to the ability of plants to quickly adapt to changes in the environment without sequence changes in the genomecontributesto the ability of plants to quickly adapt to changes in the environment without sequence changes in the genome
to the development of complicated metabolicmay contributeto the development of complicated metabolic
to phenotypic differences in livestockcontributeto phenotypic differences in livestock
to phenotypic plasticity and phenotype persistence in distinct environmentscan contributeto phenotypic plasticity and phenotype persistence in distinct environments
alsocontributesalso
to a stronger selection response in one out of 3 genotypesleadingto a stronger selection response in one out of 3 genotypes
to evolutioncontributesto evolution
directly to evolutioncontributesdirectly to evolution
individual identityinfluencesindividual identity
to the risk of complex genetic diseases like cancer andmay contributeto the risk of complex genetic diseases like cancer and
to the risk of complex genetic diseases like cancermay contributeto the risk of complex genetic diseases like cancer
to the development of various complex diseasescontributesto the development of various complex diseases
to short term plant evolutioncontributesto short term plant evolution
to the risk of complex genetic diseases like cancer and that differential exposure to environmental risk factors may underlie much of this variationmay contributeto the risk of complex genetic diseases like cancer and that differential exposure to environmental risk factors may underlie much of this variation
this pathwayto influencethis pathway
to adaptation in Arabidopsiscontributesto adaptation in Arabidopsis
to a large fraction of phenotypic variancecan contributeto a large fraction of phenotypic variance
to environmental adaptation in the birdsmay contributeto environmental adaptation in the birds
to disease riskcan ... contributeto disease risk
to environmental adaptation of Arabidopsis thalianacontributesto environmental adaptation of Arabidopsis thaliana
to the risk of complex genetic diseases like cancer and that differential exposure to environmental risk factors may underlie much of this variation [ 1 , 2may contributeto the risk of complex genetic diseases like cancer and that differential exposure to environmental risk factors may underlie much of this variation [ 1 , 2
plant growthinfluencingplant growth
to population differences in prostate cancer riskcontributingto population differences in prostate cancer risk
expression of genes underlying migratory propensityinfluencingexpression of genes underlying migratory propensity
patient outcomecan ... influencepatient outcome
to population differences in cancer riskcontributingto population differences in cancer risk
a different type of disease(passive) could be influenced bya different type of disease
tumor mutational profileto influencetumor mutational profile