The Punnett square shows the pattern of inheritance for baldness.Which is true about this trait?A. A sex-limited trait.B. A sex-influenced trait.C. A trait that are not found in X and Y chromosomes.D. A sex-linked trait inherited through the X or Y chromosomes.
1. The Punnett square shows the pattern of inheritance for baldness.Which is true about this trait?A. A sex-limited trait.B. A sex-influenced trait.C. A trait that are not found in X and Y chromosomes.D. A sex-linked trait inherited through the X or Y chromosomes.
Answer:
D
Explanation:
im not sure but i think so...
napag aralan kasi namin yan
2. punnett squares are used to______ the outcome of crosses of traits
Answer:
,predict
that is my answer
Answer:
"PREDICT" that is my answer
3. 7. Punnett squares are used to______the outcome of crosses of traits
Answer:
show
Explanation:
because if you use the punnet square you will really know the outcome of the off spring.
Answer:
Punnett squares are used to examine or determine the outcome of crosses of traits.
Explanation:
These tables/squares can be used to examine the genotypical outcome probabilities of the allele or when crossing multiple traits of the parents.
4. A woman who is a carrier of colorblindness trait (XCX)marries a man who is colorblind, a recessive sex-linked trait (XCY). Using the Punnett square, determine the probability of the offspring that is colorblind. What are the chances of them having a son or daughter who is colorblind? Express your answer in percentage. *XC is the allele for colorblindness
Answer:
(XCY)
TY PO, HEHE PA BRAINLEST
5. This refers to the family three showing the inhereitance of a trait over several generations. O Pedigree O Karyotype O Dominant O Punnett Square
Answer:
Pedigree
Explanation:
A pedigree is a genetic representation of a family tree that diagrams the inheritance of a trait or disease though several generations. The pedigree shows the relationships between family members and indicates which individuals express or silently carry the trait in question.
6. Activity 9: Genetics Probability Problems - Sex-Linked Traits Directions: Analyze and solve the following sex-linked problems. 1. Colorblindness is a recessive, sex-linked disorder in humans. A colorblind man (XY) has a child with a woman who is a carrier (XCX) of the disorder. a. What is the genotype of the man? b. What is the genotype of the woman? C. Fill in the Punnett Square to the right d. What is the chance that the child will be colorblind?
Answer:
a. X^CY
b. X^CX^C
c. Nasa pic po
d. Both 100% chance whether the child is male or female
7. What tables are used to predict the outcome of crosses of traits from parents?A. Genetics GridB. Punnett SquaresC. Offspring SquaresD. Mendelian Diagram
Answer:
B. Punnett Square
Explanation:
If you think I helped you with my answer, please consider marking my answer as the brainiest.
Answer:
B. Punnett Squares
Explanation:
that the answer!
8. D. Sex-Linked Traits 1. Draw the Punnett square for a cross of a male with color blindness (X+Y) with a normal female (XNXN). Encircle all phenotype(s) of the offspring: normal male, colorblind male, normal female, carrier female, colorblind female % of offspring with disorder: Male/Female
Answer:
anong grade po Yan hehe tanong lang
9. in pea plants, the allele for round seeds is dominant over the allele for wrinkled seeds. determine the genotypic ratio of offspring produced by crossing two parents heterozygous for this trait draw a punnett square to illustrate your prediction. what is it punnett square?
Answer:
Genotypic Ratio: 1:2:1
10. 1. What is the use of the Punnett Square? 2. How does the rule of probability apply to the production of traits in a monohybrid and a dihybrid cross?
Answer:
1. A Punnett Square is a helpful tool that helps to predict the variations and probabilities that can come from cross breeding. This includes predicting crossing plants, animals, even humans with each other.
2. The Sum Rule of probability is used to determine the probability of having one dominant trait in the F2 generation of a dihybrid cross; it is the sum of the probabilities of each individual with that trait.
ctto/but hope it's helps.
Answer:
1) helps to predict the variations and probabilities that can come from cross breeding.
2.) is the sum of the probabilities of each individual with that trait.
11. 12. Hemophilia is an inherited disease in which the person's blood does not clot easily. A woman with hemophilia (recessive sex-linked trait) marries a man who is normal for the trait. By using a Punnett square, what is the probability of their son becoming hemophiliac? A. 25% B, 50% C. 75 D. 100%
Answer:
A. po
Explanation:
If she gets the X chromosome with the hemophilia gene, she will have hemophilia. A man who has hemophilia and a woman who is a carrier have: a 25% (one in four) chance of having a son with hemophilia. a 25% chance of having a son with normal blood clotting.
12. 1. Based on the Punnett square below, which is the dominant trait? I a. Constricted pod b. Inflated pod c. both a and b d. neither a nor b
Answer:
i dont know talaga
Explanation:
just wanting the poitns
13. what is Punnett square ? ,how is it important of Punnett square in the field of genetics?
PUNNETT SQUARE is a chart that allows you to determine the expected percentages of different genotypes in the offspring of two parents.
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It is important because they are useful as they can predict the genetic probability of a particular phenotype arising in a couple's offspring.
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hope it helps ❤︎
14. Direction: Define the following terms.1. Genetics-2. Heredity-3. Gametes-4. Punnett Square-5. Incomplete dominance-6. Codominance-7. Multiple Alleles-8. Sex-linked traits-9. Sex-limited traits-10. Sex- influenced traits-
Answer:
Genetics is a branch of biology concerned with the study of genes, genetic variation, and heredity in organisms. Though heredity had been observed for millennia, Gregor Mendel, a scientist and Augustinian friar working in the 19th century, was the first to study genetics scientifically.
Heredity, also called inheritance or biological inheritance, is the passing on of traits from parents to their offspring; either through asexual reproduction or sexual reproduction, the offspring cells or organisms acquire the genetic information of their parents.
Gametes are an organism's reproductive cells. They are also referred to as sex cells. Female gametes are called ova or egg cells, and male gametes are called sperm. Gametes are haploid cells, and each cell carries only one copy of each chromosome.
The Punnett square is a square diagram that is used to predict the genotypes of a particular cross or breeding experiment. It is named after Reginald C. Punnett, who devised the approach. The diagram is used by biologists to determine the probability of an offspring having a particular genotype.
Incomplete dominance is when a dominant allele, or form of a gene, does not completely mask the effects of a recessive allele, and the organism's resulting physical appearance shows a blending of both alleles. ... Note that this is different from codominance, which is when both alleles are expressed at the same time.
Codominance is a relationship between two versions of a gene. Individuals receive one version of a gene, called an allele, from each parent. ... In codominance, however, neither allele is recessive and the phenotypes of both alleles are expressed.
Multiple Alleles are three or more possible alleles for one individual trait.
Sex linked is a trait in which a gene is located on a sex chromosome. In humans, the term generally refers to traits that are influenced by genes on the X chromosome. ... In a sex-linked disease, it is usually males who are affected because they have a single copy of X chromosome that carries the mutation.
Sex-limited genes are genes that are present in both sexes of sexually reproducing species but are expressed in only one sex and have no penetrance, or are simply 'turned off' in the other. In other words, sex-limited genes cause the two sexes to show different traits or phenotypes, despite having the same genotype.
A phenotypic characteristic or trait such as male pattern baldness that is expressed differently in males and females, usually because its expression depends on androgens or oestrogens, and that is controlled by a single gene that is dominant in males but recessive in females, so that, for example, men who inherit the gene from either parent lose hair as they age, whereas women do so only if they inherit it from both parents and are thus homozygotes. Also called a sex-limited trait. Compare sex-linked.
15. punnett square and pedigree chart can be used to trace parental genes and probability of inheriting sex related traits
Answer:
diko main tindihan ano bayan
Answer:
A punnett square is a chart that allow you to determine the expected percentages of defferent genotypes in the offspring of two parents
Explanation:
pa brainlest Po tnx
16. Punnett squares are used to _______ the outcome of crosses of traits.a.assureb.dominatec.numberd.predict
Answer:
The Punnett square are used to "PREDICT" the outcome of crosses of traits.
I AM VERY SURE WITH MY ANSWER
17. put choices for the given questions ( parang multiple choice po for each question ) 1. what are the differences between mitosis and meiosis? 2. what is the purpose of mitosis and meiosis in the cell cycle? 3. what are the stages involved in mitosis and meiosis? -------- 1. what is heredity and how is it related to traits? 2. How does knowing about heredity and traits help with genetics 3. What effects do environmental and genetic factors have on an organism's traits? -------- 1. how are genotypes and phenotypes related in the punnett square? 2. what is the purpose of a punnett square in genetics? 3. How do genotypes and phenotypes relate to one another in the Punnett square pa help po, thank you.
Answer:
(Answered by Knowledge original and Valid Opinions to help and guide the questioners)
1. A. Mitosis produces two cells, each with the same chromosome number as the original cell. Meiosis produces four cells, each with half the chromosome number as the original cell.
B. Mitosis produces two daughter cells that are exactly the same as their parent cells. Meiosis produces four daughter cells with unique combinations of chromosomes.
C. Mitosis is used for repairing, replacing, and growth of cells. Meiosis is used for the production of gametes in sexually reproducing organisms.
2. A. Mitosis is used for growth and repair and is an important part of a cell's life cycle. Meiosis is used for the production and fertilization of gametes.
B. Mitosis involves four stages: interphase, prophase, metaphase, and telophase. Meiosis involves two alternating cell divisions, meiosis I and meiosis II.
3. A. Heredity is the passing on of certain traits from parent to offspring. Traits are characteristics that are inherited from parents and are passed on through genes.
B. Knowing about heredity and traits helps with understanding how traits are passed down through generations and can be used to predict future generations of organisms.
C. Environmental factors such as diet and climate can affect an organism's phenotype, while genetic factors such as an individual's genotype affects the expression of its traits.
_________________
1. Heredity is the passing of traits from parent to offspring, including physical and inherent traits. It is related to traits in that heredity is responsible for the similarities and differences of all the traits an organism may have.
2. Knowing about heredity and traits can help with genetics by understanding how traits are inherited, how they can be passed down, and how they can change. This can be useful in selecting favorable traits or preventing the transmission of unwanted traits.
3. Environmental and genetic factors both have an effect on an organism's traits. Environmental factors, such as diet and lifestyle, can cause changes in traits. While genetic factors determine the initial set of traits of the organism, with some of them being intrinsic to the individual. Environmental and genetic factors can work together to shape an organism's traits.
_________________
1. Genotypes and phenotypes are related in a Punnett square as the genotypes (set of genes) are used to predict the possible phenotypes (characteristics or traits) that could emerge from the genetic combination.
2. The purpose of a Punnett Square in genetics is to visualize the potential offspring from a cross or mating of two parents. It is used to determine the probability of different genotypes and phenotype expressions in the offspring.
3. In the Punnett Square, genotypes are responsible for the formation of phenotypes by combining the alleles of each parent. The alleles line up along two axes of the Punnett Square and the possible gene combinations are visualized as squares in the grid. Depending on the alleles that are present, different phenotypes can be expressed by the offspring.
18. Some high blood pressure genes - an X-linked trait ACTIVITY 1 Using the Punnett square, show how Morgan computed for the result of Parent and Fi generation of fruit flies 2. cross between F1 genertion 1. Red-eyed female x white-eyed male
Answer:
ako po pa brainlist plss
19. punnett square: reginald punnett mendelian; pattern of inheritance:______
Answer:
try naten kase deko pa alam
Explanation:
baby
20. Illustrate using punnett square a cross involving sex-linked inheritance and hemophilia.
Answer:
cross these two with a Punnett square. So, the father to the offspring could contribute the X chromosome that has the hemophilia allele or a Y chromosome. And the mother can contribute the X chromosome that doesn't have the hemophilia allele or the X chromosome that does have the hemophilia allele.
Explanation:
21. 3. If a male has a disease that is Y-linked, what percentage ofhis sons will inherit the disease? Draw the Punnett square andexplain your answer.
Answer:
25%
Explanation:
A condition is considered Y-linked if the altered gene that causes the disorder is located on the Y chromosome, one of the two sex chromosomes in each of a male's cells. Because only males have a Y chromosome, in Y-linked inheritance, a variant can only be passed from father to son
22. 1. DNA 2.Heredity 3. Gamete 4. Dominant traits 5. Recessive traits 6. Allele 7. Genotype 8. Phenotype 9. Homozygote 10. Heterozygote 11. Punnett Square
Answer:
1. DNA means deoxyribonucleic acid
2. heredity -
3. Gamete are reproductive cells that unite during sexual reproduction to form a new cell called a zygote
4. Dominant traits- it represented by Capital letter
5. recessive traits -it represented by small letter
6. allele-a different form of a gene that control a certain trait.
7. Genotype-
8. Phenotype expressed physical trait is a combination of the dominant and recessive phenotypes.
9. Homozygote represented by Same letter
10. heterozygote represented by Capital and small letter
11. Punnet square the method by which one can determine the possible genotypes and phenotypes when two parents are Crossed.
23. Complete the Punnett square below and predict the phenotypic andgenotypic ratios of typical Mendelian traits.plsss pa answer paghindi sinagot ng maayos auto report
hindi ko rin po alam yung answer dito pero ito po yung nasa answer key ^^
sana makatulog hehe
24. Using a punnett square show the ff: genotypes of the parents, Punnett Square, GR, PR and Percentage B is for normal vision and b is for color blind. A man who is heterozygous normal vision married a woman who is also heterozygous normal vision. What are the possible trait of their offspring.
Answer:
GP 25%
RP 25%
GR 25%
RR 25%
That's all I know how to do!
25. what is a punnett square?
Answer:
The Punnett square is a square diagram that is used to predict the genotypes of a particular cross or breeding experiment. It is named after Reginald C. Punnett, who devised the approach[3]. The diagram is used by biologists to determine the probability of an offspring having a particular genotype. The Punnett square is a tabular summary of possible combinations of maternal alleles with paternal alleles.[4] These tables can be used to examine the genotypical outcome probabilities of the offspring of a single trait (allele), or when crossing multiple traits from the parents. The Punnett square is a visual representation of Mendelian inheritance. It is important to understand the terms "heterozygous", "homozygous", "double heterozygote" (or homozygote), "dominant allele" and "recessive allele" when using the Punnett square method. For multiple traits, using the "forked-line method" is typically much easier than the Punnett square. Phenotypes may be predicted with at least better-than-chance accuracy using a Punnett square, but the phenotype that may appear in the presence of a given genotype can in some instances be influenced by many other factors, as when polygenic inheritance and/or epigenetics are at work.
Explanation:
Sanamakatulong
#Justkeeponlearning
26. colorblindness is a disease caused by a gene found on the x chromosome. Therefore, it is referred to as a sex linked disease. The recessive allele cause the disease. A colorblind man marries a woman who is a carrier of the trait. What are the probable genotypes and phenotypes of their children? Illustrate this using PUNNETT SQUARE.
Sana makatulong correct me of im wrong
Pa brailiest nalang po
27. Solve the following problems: 1. Hemophilia is a disease caused by a gene found on the X chromosome Therefore, it is referred to as a sex-linked disease. The recessive allele causes the disease. A man with hemophilia marries a woman that is homozygous dominant for the trait. Make a key for the trait. X"= Xh Illustrate using a Punnett square the probability that their children will have the disease.
Answer:
25ml of isopropanol with 45ml water?
28. 1. What do you call to a different form of a gene that controls a certain trait?A. Allele B. DNA C. Antigen D. Gamete2. What do you call to two dominant alleles of a contrasting pair fully expressed at the same time in the heterozygous individual?A. Multiple Alleles B. Codominance C. Incomplete Dominance D. Sex-limited traits3. This occurs when the phenotype of the offspring is somewhere in between the phenotypes of both parents; a completely dominant allele does not occur.A. Codominance B. Incomplete Dominance C. Multiple Alleles D. Sex-influenced traits4. What is the term refer when more than two alleles control the inheritance of a character?A. Multiple Alleles B. Antigen C. Gamete D. Punnett square5. These traits are expressed in both sexes but more frequently in one sex than in the other.A. Sex-linked traits B. Sex-limited traits C. Sex-influenced traits D. Punnett square traits
Answer:
1. C
2. A
3. B
4. C
5. A
Explanation:
Hope it helps
29. What are the advantages of using the punnett square in predicting the genotypes and the phenotypes of the offspring of a set of parents with known genotypes for a certaing trait?
It is used when trying to predict the gene combination possibilities in a cross of parents with known genotypes. It is advantageous in a sense that one can easily conclude the ratio of the offsprings just by looking at the graph.
30. 1. Define/ Describe the following:1. DNA2. Heredity3. Gamete4. Dominant traits5. Recessive traits6. Allele7. Genotype8. Phenotype9. Homozygote10. Heterozygote11. Punnett Square
Answer:
1. DNA- The molecule inside cells that contains the genetic information responsible for the development and function of an organism.
2. Heredity - the sum of all biological processes by which particular characteristics are transmitted from parents to their offspring.
3. Gamete- sex, or reproductive, cell containing only one set of dissimilar chromosomes, or half the genetic material necessary to form a complete organism (i.e., haploid). Gametes are formed through meiosis (reduction division), in which a germ cell undergoes two fissions, resulting in the production of four gametes. During fertilization, male and female gametes fuse, producing a diploid (i.e., containing paired chromosomes) zygote.
4. Dominant Traits- in genetics, a trait that will appear in the offspring if one of the parents contributes it.
5. Recessive Traits- In genetics, a trait that must be contributed by both parents in order to appear in the offspring. Recessive traits can be carried in a person's genes without appearing in that person.
6. Allele- An allele is one of two or more versions of DNA sequence (a single base or a segment of bases) at a given genomic location. An individual inherits two alleles, one from each parent, for any given genomic location where such variation exists. If the two alleles are the same, the individual is homozygous for that allele.
7. Genotype- is a scoring of the type of variant present at a given location (i.e., a locus) in the genome. It can be represented by symbols. For example, BB, Bb, bb could be used to represent a given variant in a gene.
8. Phenotype- the observable characteristics or traits of an organism that are produced by the interaction of the genotype and the environment : the physical expression of one or more genes.
9. Homozygote- an individual having two identical alleles of a particular gene or genes and so breeding true for the corresponding characteristic.
10. Heterozygote- an individual having two different alleles of a particular gene or genes, and so giving rise to varying offspring.
11. Punnette Square- is a square diagram that is used to predict the genotypes of a particular cross or breeding experiment. It is named after Reginald C. Punnett, who devised the approach in 1905. The diagram is used by biologists to determine the probability of an offspring having a particular genotype.