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Any mutation could do so.
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True False All mutations can be passed on from a parent to an offspring?
Only mutations which occur in the gametes. Mutations in somatic cells ( body) are not passed on to offspring. Example: A mutation in skin cells leads to skin cancer, but this cannot be passed on to offspring.
Mutations in body cells can sometimes result in?
A UV light mutation, for instance, could be harmful by causing thymine dimers and possible cancer. Somatic mutations can not be passed to progeny and die with the organism.
What are disadvantage of asexual reproduction?
Some disadvantages of asexual reproduction are- Offspring are genetic clones. A negative mutation can make a sexually produced organisms susceptible to disease and can destroy large numbers of offspring.- Some methods of asexual reproduction produce offspring that are close together and compete for food and space.- Unfavorable conditions such as extreme temperatures can wipe out entire colonies.its not efficientif the parent is ill or has a disease then the offspring will have it as wellgenerally leads to overcrowdingIn Asexual reproduction, an exact copy is made of the parent. So, there is no inherited variability and everyone is a "clone." So, if the environment changes and people need to adapt, there will be no available mutations to let evolution take its course, and the species will most likely die out.There are no variations in offspring except those caused by mutations, so, if the environment changes, there might be little chance of any offspring surviving.
What is the similar between sexual and asexual reproduction?
The only major similarity is that you get a type of offspring. During asexual reproduction, an organism essentially self mates. This doesnt necessarily produce identical offspring, but close. Actually, with asexual reproduction, mutations are more likely to be phenotypically present in the next generation. So technically, you get offspring that does share genes from dad and mom, but in asexual reproduction, dad and mom are the same people.
Which combination of characteristics in a poplulation would provide the greatest potential for evolutionary change?
The characteristic of a population that would most likely indicate the lowest potential for evolutionary change in that population would be asexual reproduction. This is because the offspring are identical to the parent.
What mutations would most likely affect a cow's offspring?
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True False All mutations can be passed on from a parent to an offspring?
Only mutations which occur in the gametes. Mutations in somatic cells ( body) are not passed on to offspring. Example: A mutation in skin cells leads to skin cancer, but this cannot be passed on to offspring.
What mutation most likely can affect a cow offspring?
A mutation in egg cells
Mutations in introns are less likely to affect phenotype then mutation in exons?
mutation in exons are less likely to affect phenotype then mutation in introns because mutaion in exons are silent mutation
Are all mutations passed on to your children?
No, not all mutations are passed on to children. Mutations can occur in the DNA of reproductive cells (eggs and sperm) and if they are present in those cells, they can be passed on to the next generation. However, most mutations occur in non-reproductive cells and are not passed on to offspring.
Mutations in body cells can sometimes result in?
A UV light mutation, for instance, could be harmful by causing thymine dimers and possible cancer. Somatic mutations can not be passed to progeny and die with the organism.
What are disadvantage of asexual reproduction?
Some disadvantages of asexual reproduction are- Offspring are genetic clones. A negative mutation can make a sexually produced organisms susceptible to disease and can destroy large numbers of offspring.- Some methods of asexual reproduction produce offspring that are close together and compete for food and space.- Unfavorable conditions such as extreme temperatures can wipe out entire colonies.its not efficientif the parent is ill or has a disease then the offspring will have it as wellgenerally leads to overcrowdingIn Asexual reproduction, an exact copy is made of the parent. So, there is no inherited variability and everyone is a "clone." So, if the environment changes and people need to adapt, there will be no available mutations to let evolution take its course, and the species will most likely die out.There are no variations in offspring except those caused by mutations, so, if the environment changes, there might be little chance of any offspring surviving.
Are mutations like the one in xmen possible?
No. Not likely.
Which is more likely to develop adaptation to a changing ecosystem?
A population with few mutations will have more room in there genes to do mutations
How do mutations play a note in evolutionary change?
Mutations take a huge part in evolutionary change for a few reasons. A species can be altered permanently if a mutation occurs that is beneficial. On the other hand, if a mutation that is harmful occurs, it will not be in the offspring most likely because of natural selection. Sometimes mutations will be dormant, but this isn't as big in evolution, but can be helpful if the environment changes and their mutation deals with something accepting more harsh conditions.
What is the similarity asexual and sexual reproduction?
The only major similarity is that you get a type of offspring. During asexual reproduction, an organism essentially self mates. This doesnt necessarily produce identical offspring, but close. Actually, with asexual reproduction, mutations are more likely to be phenotypically present in the next generation. So technically, you get offspring that does share genes from dad and mom, but in asexual reproduction, dad and mom are the same people.
Does evolution involves descent with modification?
Partly yes. When organisms procreate there are always mutations, (mistakes), in the copying of the DNA. When a mutation or series of mutations helps a species to live through changes in environment it would be considered more successful and would be more likely to have offspring to pass on those mutations to the next generation.
