Scientistandrsquo;s believe they have found the gene accountable for intelligence. The allele andldquo;Gandrdquo; is dominant, and the allele andldquo;gandrdquo; is recessive. The intelligence gene is optimally expressed in the homozygous recessive form. The chart above shows the trait in the heterozygous form and the homozygous form. The form andldquo;ggandrdquo; is from the mother, and andldquo;Ggandrdquo; is from the father. The parents want to know what the gene might look like in their child.Q. What form of the gene expresses optimal intelligence?a)gGb)GGc)Ggd)gge)none of the aboveCorrect answer is option 'D'. Can you explain this answer?

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Scientist’s believe they have found the gene accountable for intelligence. The allele “G” is dominant, and the allele “g” is recessive. The intelligence gene is optimally expressed in the homozygous recessive form. The chart above shows the trait in the heterozygous form and the homozygous form. The form “gg” is from the mother, and “Gg” is from the father. The parents want to know what the gene might look like in their child.

Q. What form of the gene expresses optimal intelligence?

a)
gG
b)
GG
c)
Gg
d)
gg
e)
none of the above

Correct answer is option 'D'. Can you explain this answer?

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Scientist’s believe they have found the gene accountable for int...

The prompt states the intelligence gene is "optimally expressed in the homozygous recessive form." Therefore, this is the "gg" form.

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Scientist’s believe they have found the gene accountable for intelligence. The allele “G” is dominant, and the allele “g” is recessive. The intelligence gene is optimally expressed in the homozygous recessive form. The chart above shows the trait in the heterozygous form and the homozygous form. The form “gg” is from the mother, and “Gg” is from the father. The parents want to know what the gene might look like in their child.Q. According to the chart above, what are the chances of the child inheriting the optimal form of the gene?

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Scientist’s believe they have found the gene accountable for intelligence. The allele “G” is dominant, and the allele “g” is recessive. The intelligence gene is optimally expressed in the homozygous recessive form. The chart above shows the trait in the heterozygous form and the homozygous form. The form “gg” is from the mother, and “Gg” is from the father. The parents want to know what the gene might look like in their child.Q. According to the data given, what could one infer about the phenotype for "Gg?"

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Directions: Read the passages and choose the best answer to each question.PassageGregor Mendel is known for his work in genetics. He is credited with discovering how traits (characteristics) are passed from one generation to the next. After his observations of inherited traits, Mendel concluded that each organism carries two sets of information about a certain trait.If the two sets differ about the same trait, one set dominates the other. That way, information can be passed on through the generations, even if the trait is not expressed.It has since been determined that the presence of certain traits is attributed to genes, and the different forms that genes can take, known as alleles. Dominant alleles (D) produce dominant characteristics; recessive alleles (d ) produce recessive charactersitics. Dominant alleles are expressed whenever present (DD, D d) but recessive alleles are expressed only when the dominant allele is absent (dd).A study was done in which the independence of two traits was tested. In this study, a rabbit with long black hair was mated with a rabbit with short white hair. The dominant trait for hair length is short (H). The dominant trait for hair color is black (B). If the two initial rabbits (level 1 in the ﬁgure below) are homozygous for their traits, meaning that the two alleles for each trait are the same, breeding them will result in offspring that have both a dominant and recessive allele for each trait. Such a pairing of alleles is known as heterozygous. If, as in level 2 of the ﬁgure, two heterozygous rabbits are bred, the chart (level 3) contains all the possibilities for their offspring.Q.Which of the following statements might be a reasonable generalization made after examining this study?

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Directions: Read the passages and choose the best answer to each question.PassageGregor Mendel is known for his work in genetics. He is credited with discovering how traits (characteristics) are passed from one generation to the next. After his observations of inherited traits, Mendel concluded that each organism carries two sets of information about a certain trait.If the two sets differ about the same trait, one set dominates the other. That way, information can be passed on through the generations, even if the trait is not expressed.It has since been determined that the presence of certain traits is attributed to genes, and the different forms that genes can take, known as alleles. Dominant alleles (D) produce dominant characteristics; recessive alleles (d ) produce recessive charactersitics. Dominant alleles are expressed whenever present (DD, D d) but recessive alleles are expressed only when the dominant allele is absent (dd).A study was done in which the independence of two traits was tested. In this study, a rabbit with long black hair was mated with a rabbit with short white hair. The dominant trait for hair length is short (H). The dominant trait for hair color is black (B). If the two initial rabbits (level 1 in the ﬁgure below) are homozygous for their traits, meaning that the two alleles for each trait are the same, breeding them will result in offspring that have both a dominant and recessive allele for each trait. Such a pairing of alleles is known as heterozygous. If, as in level 2 of the ﬁgure, two heterozygous rabbits are bred, the chart (level 3) contains all the possibilities for their offspring.Q.Which of the following statements best explains the observation that offspring of the two rabbits in level 1 must have short black hair?

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Directions: Read the passages and choose the best answer to each question.PassageGregor Mendel is known for his work in genetics. He is credited with discovering how traits (characteristics) are passed from one generation to the next. After his observations of inherited traits, Mendel concluded that each organism carries two sets of information about a certain trait.If the two sets differ about the same trait, one set dominates the other. That way, information can be passed on through the generations, even if the trait is not expressed.It has since been determined that the presence of certain traits is attributed to genes, and the different forms that genes can take, known as alleles. Dominant alleles (D) produce dominant characteristics; recessive alleles ( d) produce recessive charactersitics. Dominant alleles are expressed whenever present (DD, Dd) but recessive alleles are expressed only when the dominant allele is absent (dd).A study was done in which the independence of two traits was tested. In this study, a rabbit with long black hair was mated with a rabbit with short white hair. The dominant trait for hair length is short (H). The dominant trait for hair color is black (B). If the two initial rabbits (level 1 in the ﬁgure below) are homozygous for their traits, meaning that the two alleles for each trait are the same, breeding them will result in offspring that have both a dominant and recessive allele for each trait. Such a pairing of alleles is known as heterozygous. If, as in level 2 of the ﬁgure, two heterozygous rabbits are bred, the chart (level 3) contains all the possibilities for their offspring.Q.In the ﬁgure above, each numbered level represents

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Scientist’s believe they have found the gene accountable for intelligence. The allele “G” is dominant, and the allele “g” is recessive. The intelligence gene is optimally expressed in the homozygous recessive form. The chart above shows the trait in the heterozygous form and the homozygous form. The form “gg” is from the mother, and “Gg” is from the father. The parents want to know what the gene might look like in their child.Q. What form of the gene expresses optimal intelligence?a)gGb)GGc)Ggd)gge)none of the aboveCorrect answer is option 'D'. Can you explain this answer? for ACT 2025 is part of ACT preparation. The Question and answers have been prepared according to the ACT exam syllabus. Information about Scientist’s believe they have found the gene accountable for intelligence. The allele “G” is dominant, and the allele “g” is recessive. The intelligence gene is optimally expressed in the homozygous recessive form. The chart above shows the trait in the heterozygous form and the homozygous form. The form “gg” is from the mother, and “Gg” is from the father. The parents want to know what the gene might look like in their child.Q. What form of the gene expresses optimal intelligence?a)gGb)GGc)Ggd)gge)none of the aboveCorrect answer is option 'D'. Can you explain this answer? covers all topics & solutions for ACT 2025 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Scientist’s believe they have found the gene accountable for intelligence. The allele “G” is dominant, and the allele “g” is recessive. The intelligence gene is optimally expressed in the homozygous recessive form. The chart above shows the trait in the heterozygous form and the homozygous form. The form “gg” is from the mother, and “Gg” is from the father. The parents want to know what the gene might look like in their child.Q. What form of the gene expresses optimal intelligence?a)gGb)GGc)Ggd)gge)none of the aboveCorrect answer is option 'D'. Can you explain this answer?.

Solutions for Scientist’s believe they have found the gene accountable for intelligence. The allele “G” is dominant, and the allele “g” is recessive. The intelligence gene is optimally expressed in the homozygous recessive form. The chart above shows the trait in the heterozygous form and the homozygous form. The form “gg” is from the mother, and “Gg” is from the father. The parents want to know what the gene might look like in their child.Q. What form of the gene expresses optimal intelligence?a)gGb)GGc)Ggd)gge)none of the aboveCorrect answer is option 'D'. Can you explain this answer? in English & in Hindi are available as part of our courses for ACT. Download more important topics, notes, lectures and mock test series for ACT Exam by signing up for free.

Here you can find the meaning of Scientist’s believe they have found the gene accountable for intelligence. The allele “G” is dominant, and the allele “g” is recessive. The intelligence gene is optimally expressed in the homozygous recessive form. The chart above shows the trait in the heterozygous form and the homozygous form. The form “gg” is from the mother, and “Gg” is from the father. The parents want to know what the gene might look like in their child.Q. What form of the gene expresses optimal intelligence?a)gGb)GGc)Ggd)gge)none of the aboveCorrect answer is option 'D'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of Scientist’s believe they have found the gene accountable for intelligence. The allele “G” is dominant, and the allele “g” is recessive. The intelligence gene is optimally expressed in the homozygous recessive form. The chart above shows the trait in the heterozygous form and the homozygous form. The form “gg” is from the mother, and “Gg” is from the father. The parents want to know what the gene might look like in their child.Q. What form of the gene expresses optimal intelligence?a)gGb)GGc)Ggd)gge)none of the aboveCorrect answer is option 'D'. Can you explain this answer?, a detailed solution for Scientist’s believe they have found the gene accountable for intelligence. The allele “G” is dominant, and the allele “g” is recessive. The intelligence gene is optimally expressed in the homozygous recessive form. The chart above shows the trait in the heterozygous form and the homozygous form. The form “gg” is from the mother, and “Gg” is from the father. The parents want to know what the gene might look like in their child.Q. What form of the gene expresses optimal intelligence?a)gGb)GGc)Ggd)gge)none of the aboveCorrect answer is option 'D'. Can you explain this answer? has been provided alongside types of Scientist’s believe they have found the gene accountable for intelligence. The allele “G” is dominant, and the allele “g” is recessive. The intelligence gene is optimally expressed in the homozygous recessive form. The chart above shows the trait in the heterozygous form and the homozygous form. The form “gg” is from the mother, and “Gg” is from the father. The parents want to know what the gene might look like in their child.Q. What form of the gene expresses optimal intelligence?a)gGb)GGc)Ggd)gge)none of the aboveCorrect answer is option 'D'. Can you explain this answer? theory, EduRev gives you an ample number of questions to practice Scientist’s believe they have found the gene accountable for intelligence. The allele “G” is dominant, and the allele “g” is recessive. The intelligence gene is optimally expressed in the homozygous recessive form. The chart above shows the trait in the heterozygous form and the homozygous form. The form “gg” is from the mother, and “Gg” is from the father. The parents want to know what the gene might look like in their child.Q. What form of the gene expresses optimal intelligence?a)gGb)GGc)Ggd)gge)none of the aboveCorrect answer is option 'D'. Can you explain this answer? tests, examples and also practice ACT tests.

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