Broad Heritability using Breeder's Equation Calculator

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✖Genotype of (Aa) Allele is a heterozygous individual's collection of genes.ⓘ Genotype of (Aa) Allele [G_Aa]			+10% -10%
✖Genotype of (aa) Allele is a reccesive individual's collection of genes.ⓘ Genotype of (aa) Allele [G_aa]			+10% -10%
✖Genotype of (AA) Allele is a dominant homozygous individual's collection of genes.ⓘ Genotype of (AA) Allele [G_AA]			+10% -10%
✖Phenotype of (aa) Allele is a recessive individual's observable traits, such as height, eye color, and blood type.ⓘ Phenotype of (aa) Allele [P_aa]			+10% -10%
✖Phenotype of (AA) Allele is a dominant homozygous individual's observable traits, such as height, eye color, and blood type.ⓘ Phenotype of (AA) Allele [P_AA]			+10% -10%
✖Phenotype of (Aa) allele is a heterozygous individual's observable traits, such as height, eye color, and blood type.ⓘ Phenotype of (Aa) Allele [A_a]			+10% -10%

✖Broad Sense Heritability is reflects all the genetic contributions to a population's phenotypic variance including additive, dominant, and epistatic.ⓘ Broad Heritability using Breeder's Equation [H²]

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Formula

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Broad Heritability using Breeder's Equation

Formula

`"H"^{"2"} = var("G"_{"Aa"},"G"_{"aa"},"G"_{"AA"})/var("P"_{"aa"},"P"_{"AA"},"A"_{"a"})`

Example

`"0.00369"=var("2","3","4")/var("38","9","37")`

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Broad Heritability using Breeder's Equation Solution

STEP 0: Pre-Calculation Summary

Formula Used

Broad Sense Heritability = var(Genotype of (Aa) Allele,Genotype of (aa) Allele,Genotype of (AA) Allele)/var(Phenotype of (aa) Allele,Phenotype of (AA) Allele,Phenotype of (Aa) Allele)
H² = var(G_Aa,G_aa,G_AA)/var(P_aa,P_AA,A_a)
This formula uses 1 Functions, 7 Variables

Functions Used

var - The use of n − 1 instead of n in the formula for the sample variance and sample standard deviation, where n is the number of observations in a sample., var(a1, …, an)

Variables Used

Broad Sense Heritability - Broad Sense Heritability is reflects all the genetic contributions to a population's phenotypic variance including additive, dominant, and epistatic.
Genotype of (Aa) Allele - Genotype of (Aa) Allele is a heterozygous individual's collection of genes.
Genotype of (aa) Allele - Genotype of (aa) Allele is a reccesive individual's collection of genes.
Genotype of (AA) Allele - Genotype of (AA) Allele is a dominant homozygous individual's collection of genes.
Phenotype of (aa) Allele - Phenotype of (aa) Allele is a recessive individual's observable traits, such as height, eye color, and blood type.
Phenotype of (AA) Allele - Phenotype of (AA) Allele is a dominant homozygous individual's observable traits, such as height, eye color, and blood type.
Phenotype of (Aa) Allele - Phenotype of (Aa) allele is a heterozygous individual's observable traits, such as height, eye color, and blood type.

STEP 1: Convert Input(s) to Base Unit

Genotype of (Aa) Allele: 2 --> No Conversion Required
Genotype of (aa) Allele: 3 --> No Conversion Required
Genotype of (AA) Allele: 4 --> No Conversion Required
Phenotype of (aa) Allele: 38 --> No Conversion Required
Phenotype of (AA) Allele: 9 --> No Conversion Required
Phenotype of (Aa) Allele: 37 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

H² = var(G_Aa,G_aa,G_AA)/var(P_aa,P_AA,A_a) --> var(2,3,4)/var(38,9,37)

Evaluating ... ...

H² = 0.003690036900369

STEP 3: Convert Result to Output's Unit

0.003690036900369 --> No Conversion Required

FINAL ANSWER

0.003690036900369 ≈ 0.00369 <-- Broad Sense Heritability

(Calculation completed in 00.020 seconds)

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Created by Soupayan banerjee

National University of Judicial Science (NUJS), Kolkata

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University of Hawaiʻi at Mānoa (UH Manoa), Hawaii, USA

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Narrow Heritability using Breeder's equation

Go Narrow Sense Heritability = var(Additive Genetic of (Aa) Allele,Additive Genetic of Allele (AA),Additive Genetic of (aa) Allele)/var(Phenotype of (aa) Allele,Phenotype of (AA) Allele,Phenotype of (Aa) Allele)

Broad Heritability using Breeder's Equation

Go Broad Sense Heritability = var(Genotype of (Aa) Allele,Genotype of (aa) Allele,Genotype of (AA) Allele)/var(Phenotype of (aa) Allele,Phenotype of (AA) Allele,Phenotype of (Aa) Allele)

Protein Release Constant

Go The release constant = ln(The protein content maximum)/(The protein content maximum-The protein release fractional)/The sonication time

Yield of Protein

Go The yield of protein = (The Volume of top phase*The optical density of top phase)/(The Volume of bottom phase*The optical density of bottom phase)

Lineweaver Burk plot

Go The initial reaction rate = (The maximum reaction rate*The substrare concentration)/(Michaelis Constant+The substrare concentration)

Heat Generated during Microbial Growth

Go Metabolic heat evolved = (Substrate yield coefficient)/(Heat of combustion-Substrate yield coefficient*Heat of combustion of cell)

Rotational Angle of Alpha Helix

Go Rotation Angle per Residue = acos((1-(4*cos(((Dihedral angles around negative 65°+Dihedral Angles around negative 45°)/2)^2)))/3)

Temperature Coefficient of Resistance of RTD

Go Temperature Coefficient of Resistance = (Resistance of RTD at 100-Resistance of RTD at 0)/(Resistance of RTD at 0*100)

Hardy-Weinberg Equilibrium Equation for Predicted Frequency of Heterozygous (Aa) Type

Go Predicted Frequency of Heterozygous people = 1-(Predicted Frequency of Homozygous Dominant^2)-(Predicted Frequency of Homozygous Recessive^2)

Hardy Weinberg Equation for Predicted Frequency of Homozygous Dominant (AA) Type

Go Predicted Frequency of Homozygous Dominant = 1-(Predicted Frequency of Heterozygous people)-(Predicted Frequency of Homozygous Recessive)

Net Specific Replication Rate

Go Net specific replication rate = (1/Cell mass concentration)*(Change in mass concentration/Change in time)

Net Specific Growth Rate of Bacteria

Go Net specific growth rate = 1/Cell mass concentration*(Change in mass concentration/Change in time)

Fugacity Capacity of Chemical in Fish

Go Fugacity Capacity of Fish = (Density of Fish*Bioconcentration Factors)/Henry Law Constant

Fitness of Group i in Population

Go Fitness of Group i = Number of Group i Individuals in Next Generation/Number of Group i individuals Previous Generation

Protein release by cell disruption

Go The protein release fractional = The protein content maximum-The protein concentration at specific time

Wall tension of Vessel using Young-Laplace Equation

Go Hoop Stress = (Blood Pressure*Inner Radius of Cylinder)/Wall Thickness

Percentage Protein Recovery

Go The protein recovery = (The final concentration of protein/The intial concentration of protein)*100

Partition coefficeint of protein

Go The partition coefiicient = The optical density of top phase/The optical density of bottom phase

Bioconcentration Factor

Go Bioconcentration Factors = Concentration of Metal in Plant Tissue/Concentration of Metal in Soil

Octanol-Water Partition Coefficient

Go Octanol-Water Partition Coefficient = Concentration of Octanol/Concentration of Water

Net Specific Growth Rate Cell Death

Go Net specific growth rate = Gross specific growth rate-Rate of loss of cell mass

Solute Potential of Cell given Water and Pressure Potential

Go Solute Potential = Water Potential-Pressure Potential

Pressure Potential of Cell given Water and Solute Potential

Go Pressure Potential = Water Potential-Solute Potential

Approximate Water Potential of Cell

Go Water Potential = Solute Potential+Pressure Potential

Broad Heritability using Breeder's Equation Formula

What is Heritability?

Heritability is a statistic used in the fields of breeding and genetics that estimates the degree of variation in a phenotypic trait in a population that is due to genetic variation between individuals in that population. It measures how much of the variation of a trait can be attributed to variation of genetic factors, as opposed to variation of environmental factors.

How to Calculate Broad Heritability using Breeder's Equation?

Broad Heritability using Breeder's Equation calculator uses Broad Sense Heritability = var(Genotype of (Aa) Allele,Genotype of (aa) Allele,Genotype of (AA) Allele)/var(Phenotype of (aa) Allele,Phenotype of (AA) Allele,Phenotype of (Aa) Allele) to calculate the Broad Sense Heritability, The Broad Heritability using Breeder's equation formula is defined as all the genetic contributions to a population's phenotypic variance including additive, dominant, and epistatic (multi-genic interactions), as well as maternal and paternal effects, where individuals are directly affected by their parents' phenotype, such as with milk production in mammals. Broad Sense Heritability is denoted by H² symbol.

How to calculate Broad Heritability using Breeder's Equation using this online calculator? To use this online calculator for Broad Heritability using Breeder's Equation, enter Genotype of (Aa) Allele (G_Aa), Genotype of (aa) Allele (G_aa), Genotype of (AA) Allele (G_AA), Phenotype of (aa) Allele (P_aa), Phenotype of (AA) Allele (P_AA) & Phenotype of (Aa) Allele (A_a) and hit the calculate button. Here is how the Broad Heritability using Breeder's Equation calculation can be explained with given input values -> 0.00369 = var(2,3,4)/var(38,9,37).

FAQ

What is Broad Heritability using Breeder's Equation?

The Broad Heritability using Breeder's equation formula is defined as all the genetic contributions to a population's phenotypic variance including additive, dominant, and epistatic (multi-genic interactions), as well as maternal and paternal effects, where individuals are directly affected by their parents' phenotype, such as with milk production in mammals and is represented as H² = var(G_Aa,G_aa,G_AA)/var(P_aa,P_AA,A_a) or Broad Sense Heritability = var(Genotype of (Aa) Allele,Genotype of (aa) Allele,Genotype of (AA) Allele)/var(Phenotype of (aa) Allele,Phenotype of (AA) Allele,Phenotype of (Aa) Allele). Genotype of (Aa) Allele is a heterozygous individual's collection of genes, Genotype of (aa) Allele is a reccesive individual's collection of genes, Genotype of (AA) Allele is a dominant homozygous individual's collection of genes, Phenotype of (aa) Allele is a recessive individual's observable traits, such as height, eye color, and blood type, Phenotype of (AA) Allele is a dominant homozygous individual's observable traits, such as height, eye color, and blood type & Phenotype of (Aa) allele is a heterozygous individual's observable traits, such as height, eye color, and blood type.

How to calculate Broad Heritability using Breeder's Equation?

The Broad Heritability using Breeder's equation formula is defined as all the genetic contributions to a population's phenotypic variance including additive, dominant, and epistatic (multi-genic interactions), as well as maternal and paternal effects, where individuals are directly affected by their parents' phenotype, such as with milk production in mammals is calculated using Broad Sense Heritability = var(Genotype of (Aa) Allele,Genotype of (aa) Allele,Genotype of (AA) Allele)/var(Phenotype of (aa) Allele,Phenotype of (AA) Allele,Phenotype of (Aa) Allele). To calculate Broad Heritability using Breeder's Equation, you need Genotype of (Aa) Allele (G_Aa), Genotype of (aa) Allele (G_aa), Genotype of (AA) Allele (G_AA), Phenotype of (aa) Allele (P_aa), Phenotype of (AA) Allele (P_AA) & Phenotype of (Aa) Allele (A_a). With our tool, you need to enter the respective value for Genotype of (Aa) Allele, Genotype of (aa) Allele, Genotype of (AA) Allele, Phenotype of (aa) Allele, Phenotype of (AA) Allele & Phenotype of (Aa) Allele and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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