Answer:
A) The striations are due to the orderly arrangement of actin and myosin
Explanation:
Smooth muscles are non-striated involuntary muscles which are found in the walls of stomach, urinary bladder, blood vessels...Smooth muscle tissue is composed of spindle-shaped muscle cells with single central nucleus. Like the other two type of muscles (cardiac and skeletal), smooth muscles also have four main functions:
Contractility-ability to contract. In the case of skeletal muscles it is voluntary, while in cardiac and smooth muscles it is unconscious.Excitability-ability to change membrane potential usually by the influence of nervous impulse.Extensibility-the capacity to lengthenElasticity-ability to change its length and then return to previous.The statement that is not characteristic of smooth muscle is the claim that striations are due to the orderly arrangement of actin and myosin. Smooth muscle tissue does not have a striated appearance because its actin and myosin filaments are not arranged in a regular pattern.
Explanation:The characteristic that is not true of smooth muscle is option A: The striations are due to the orderly arrangement of actin and myosin. This is because, unlike skeletal and cardiac muscles, smooth muscles do not have striations. This is due to the fact that the actin and myosin within smooth muscle fibers are not arranged in a repeating pattern, giving the muscle its uniform, nonstriated appearance. Smooth muscles are controlled involuntarily (option B), they contain a single nucleus making them uninucleate (option C), they indeed do not contain sarcomeres (option D), and the thin filaments of smooth muscle fibers are indeed attached to dense bodies (option E).
Learn more about Smooth Muscle here:https://brainly.com/question/32879736
#SPJ11
Scientists say that climate data from nine different countries indicate that every country will be hit with major climate changes during this century. How can scientists make such predictions?
A) by talking to local weather stations
B) by analyzing layers deep within Earth
C) by creating a computer model from data collected
D) by compiling weather forecasts from each country
Answer:
C
Explanation:
Scientists can make such predictions by creating a computer model from data collected from the studies. Thus, the correct option is C.
What evidence indicate climate change?Climate change are the long-term shifts in the temperature range and the weather patterns of a particular geographical location. These shifts in weather patterns may be natural, but since the 1800s time, human activities have been the main driver of climate change on this planet, primarily due to the burning of fossil fuels such as coal, oil, and gas, which produces heat-trapping gases such as carbon dioxide which are responsible for global warming.
Climate models are the computer programs which simulate weather patterns over a small period of time. By running these simulations for a particular location, climate models can estimate the Earth's average weather patterns, the climate under different set of conditions.
Therefore, the correct option is C.
Learn more about Computer models here:
https://brainly.com/question/20292974
#SPJ2
Which of the following statements is true?
A. In the lytic cycle, the virus hides in the host’s DNA.
B. Stress can cause a virus to switch from the lytic cycle to the lysogenic cycle.
C. Stress can cause a virus to switch from the lysogenic cycle to the lytic cycle.
D. In the lysogenic cycle, the virus uses the host cell to make new viral parts.
the answer would be C. :)
Answer:
C is correct
Explanation:
The virus cannot live in the environment without the host cell. They need the host cell for their survival.The virus incorporates its genetic material in the genetic material of the host cell to live. They opt for lytic cycle or lysogenic cycle.
Due to environmental stressors such as the starvation or exposure to chemicals may cause the virus to switch from the lysogenic cycle to lytic cycle.
Which of the following is a true statement regarding the neurotransmitters of the ANS? Check all that apply. Check All That Apply All preganglionic neurons of the ANS are cholinergic. All preganglionic neurons of the ANS are cholinergic. All postganglionic neurons of the ANS are adrenergic. All postganglionic neurons of the ANS are adrenergic. All postganglionic neurons of the ANS have cholinergic receptors. All postganglionic neurons of the ANS have cholinergic receptors. Postganglionic sympathetic neurons release norepinephrine to the heart muscle cells. Postganglionic sympathetic neurons release norepinephrine to the heart muscle cells. Some ANS neurons use dopamine as their neurotransmitter.
Answer:
All preganglionic neurons of the ANS are cholinergic.
All postganglionic neurons of the ANS have cholinergic receptors
Postganglionic sympathetic neurons release norepinephrine to the heart muscle cells
Some ANS neurons use dopamine as their neurotransmitter
Explanation:
Autonomic nervous system (ANS) consists of:
sympathetic nervous system -responsible for the "fight and flight" reactions (stressful situations but also for maintaining homeostasis). Short preganglionic neurons release acetylcholine which binds to its receptors on the postganglionic cell. Postganglionic neurons release norepinephrine, epinephrine or dopamine (in kidneys).parasympathetic nervous system -opposite to sympathetic system, responsible for "rest and digest" reactions (body activities at rest). Long preganglionic neurons release acetylcholine which binds to its receptors on the postganglionic cell. Postganglionic neurons release acetylcholine.enteric nervous system-controls digestionPreganglionic neurons of both ANS divisions are cholinergic and all postganglionic neurons have cholinergic receptors. Postganglionic sympathetic neurons predominantly release norepinephrine but there are exceptions, and some ANS neurons may utilize dopamine.
Explanation:In regards to the neurotransmitters of the Autonomic Nervous System (ANS), the following statements are true: All preganglionic neurons of the ANS release acetylcholine (ACh) and are, therefore, cholinergic; this applies to both sympathetic and parasympathetic neurons. All postganglionic neurons of the ANS do possess cholinergic (nicotinic) receptors, as they are activated by the ACh released from preganglionic fibers.
However, not all postganglionic neurons of the ANS are adrenergic. Postganglionic sympathetic fibers release norepinephrine mainly, but there are exceptions, such as the fibers projecting to sweat glands and blood vessels associated with skeletal muscles, which actually release ACh. Certain sympathetic fibers attached to the heart muscle cells indeed release norepinephrine.
Lastly, certain ANS neurons may use dopamine as their neurotransmitter, but this is relatively less common compared to ACh and norepinephrine.
Learn more about Autonomic Nervous System Neurotransmitters here:https://brainly.com/question/29729479
#SPJ3
Which of the following is least likely to kill the organism it feeds on? A) herbivore B) predator C) seed eater D) carnivore E) parasite
Out of herbivores, predators, seed eaters, carnivores, and parasites, a herbivore is the least likely to kill the organism it feeds on because it consumes plant materials, rather than living organisms.
Explanation:The organism least likely to kill the organism it feeds on is a herbivore. Herbivores, such as cows or rabbits, eat plant materials, not other organisms. In contrast, predators and carnivores hunt and consume other organisms, often resulting in the prey's death. Similarly, seed eaters can kill the plant that produces the seeds they eat. Finally, parasites often harm or even kill the organisms they inhabit, though this can be unintentional, as parasites typically aim to coexist with the host rather than killing it.
Learn more about Organisms and Feeding Habits here:https://brainly.com/question/23246379
#SPJ3
Parasites are the least likely to kill the organism they feed on, as their survival often depends on a living host. While herbivores and seed eaters consume plant parts, parasites maintain a longer-term relationship with their hosts. Hence the correct option is E.
The organism least likely to kill the organism it feeds on is parasite. Parasites, in contrast to predators or carnivores, tend to live in or on their host and rely on that host for sustenance without typically killing it outright. Some parasites can harm their hosts to a degree or decrease their fitness, but their survival strategy often involves keeping the host alive for as long as possible to continue benefiting from its resources. On the other hand, herbivores and seed eaters generally consume parts of plants without killing them, but they are less likely to maintain a long-term relationship with an individual plant as parasites do with their hosts. Grazing herbivores, such as woodchucks and adult Japanese beetles, tend to eat parts of plants and move to other plants, rather than staying and feeding off a single host. Absorbing herbivores, including some fungi and bacteria, are predominantly considered parasites. These may feed using structures like haustoria that allow them to exchange nutrients with living host cells, which often do not result in the host's immediate death.
Black hair is dominant over blonde hair. A father with black hair reproduces with a female with blonde hair. What are the chances the child will have black hair? What are the chances the child will have blonde hair? You need to answer the question by constructing Punnett square(s) and determine the resulting phenotypic percentages.
Answer: Hard to say, assumable 50/50, child will still carry recessive gene.
Explanation: Dark haired genes are dominant meaning if your child gets one piece of a gene(s) from parent Bk that is(are) dominant, they will likely have or develop dark hair as the recessive gene(s) are overpowered. This is why some children are born with blonde or light hair that develops into dark brown/black as they age.
Theoretically, Parent Bk would have to have a part of a blonde recessive gene(there are multiple genes but even one is enough) to give to a child in order for them to have blonde hair. Or, the gene(s) they receive from parent Bk malfunctions and the recessive gene(s) from parent Bd is(are) the only one(s) expressed making the kid blonde. If the father has black hair and nobody in his family or ancestry has blonde hair, then there is still a chance that the child could get blonde hair depending on the mother. Because we don’t know for sure what alleles parent Bk has, you could end up with children who all have dark hair(not explicitly black but dark) or 50/50 dark/light
The chances for the child to have black hair are 2 out of 4, or 50%. Similarly, the chances for the child to have blonde hair are also 2 out of 4, or 50%. Therefore, based on the Punnett square analysis, there is a 50% chance for the child to have black hair and a 50% chance for the child to have blonde hair.
To determine the chances of the child having black or blonde hair, we can use a Punnett square to represent the possible combinations of alleles from the parents. In this case, we'll assume that black hair is determined by a dominant allele (B), and blonde hair is determined by a recessive allele (b).
The father with black hair would have the genotype Bb, where B represents the dominant allele for black hair and b represents the recessive allele for blonde hair.
The mother with blonde hair would have the genotype bb, having two copies of the recessive allele for blonde hair.
Now, let's construct a Punnett square to determine the possible genotypes and phenotypes of the offspring:
From the Punnett square, we can see that there are four possible combinations of alleles for the child: Bb, Bb, bb, and bb.
The genotypes Bb and Bb would result in black hair, as they have at least one copy of the dominant allele (B).
The genotypes bb and bb would result in blonde hair since they have two copies of the recessive allele (b).
So, from the Punnett square, the chances for the child to have black hair are 2 out of 4, or 50%. Similarly, the chances for the child to have blonde hair are also 2 out of 4, or 50%.
Therefore, based on the given information and Punnett square analysis, there is a 50% chance for the child to have black hair and a 50% chance for the child to have blonde hair.
To know more about Punnett Square:
https://brainly.com/question/32049536
#SPJ4
Which of these is a starting point for primary succession? A) a surface exposed by a retreating glacier B) abandoned farmland C) an abandoned city D) a neglected yard E) none of the above
Answer:
surface exposed by a retreating glacier - A)
Imagine you discover a yeast mutant that exhibits a general inability to grow and thrive compared to wild-type yeast. You predict that the mutant has a defect in a basic process necessary for survival and therefore examine the cellular levels of 200 common proteins, as well as the levels of tRNAs and rRNAs. You discover that tRNA and rRNA levels are normal, but the levels of all of the proteins you examine are much lower than they are in the wild-type yeast. This suggests that there is a general defect in:
Answer:
Some of the other process of gene expression
Explanation:
If the tRNA and rRNA levels are normal we can assume that the translation machinery is working properly. So, this suggest that the defect might appear in some of the previous steps of gene expression: replication, transcription, mRNA processing.
Gene expression is a set of processes that occur in the cell and that use information from the genetic material (gene) to produce gene product (e.g. protein). Gene expression is highly controlled and regulated because it is critical for an organism's development.
The image above is that of one hemisphere of a sheep brain which is very similar to that of a human brain. The pins are placed in 3 internal structures of the brain. Which answer choice below is INCORRECT concerning these structures?
A) The red pin is placed in the thalamus.
B) The blue pin is placed in the cerebellum.
C) The medulla oblongata is not labeled with a pin.
D) The green pin is placed in the lateral ventricle.
Answer:
B)
The blue pin is placed in the cerebellum.
Explanation:
Answer: Option B
Explanation:
The red pin is placed in the thalamus region. This region helps in sending receiving all the sensory information from the stimuli and transferring it to the cerebral cortex part of the brain for the processing of information.
The green pin lies in the region of lateral ventricle are two ventricles in the brain which contains cerebrospinal fluid which provides protection to the brain and acts as cushion of the brain.
The blue colored pin is placed in the cerebellum. It is the correct option.
Why doesn't semen enter the urinary bladder during ejaculation? Why doesn't semen enter the urinary bladder during ejaculation? The smooth muscle sphincter at the base of the urinary bladder closes. There is no common duct between the reproductive system and the urinary system. Ejaculation is a parasympathetic reflex resulting in no response by urinary contraction muscles. There is no urge to urinate during sexual intercourse because of the suppression of LH by testosterone buildup in the blood.
Semen does not enter the urinary bladder during ejaculation because of the internal sphincter. The internal sphincter is a ring of muscle that surrounds the urethra, the tube that carries urine and semen out of the body.
During ejaculation, the internal sphincter contracts tightly, preventing semen from entering the bladder.
The internal sphincter is controlled by the autonomic nervous system, which is the part of the nervous system that is not under conscious control. This means that we cannot control the internal sphincter voluntarily.
The internal sphincter is also closed by the bladder neck, which is a narrowing of the urethra at the point where it joins the bladder. The bladder neck relaxes during ejaculation, allowing semen to pass through the urethra and out of the body.
If the internal sphincter or bladder neck were to relax during ejaculation, semen could enter the bladder. This is a condition called retrograde ejaculation. Retrograde ejaculation is relatively rare, but it can be caused by certain medications, surgery, or nerve damage.
To know more about internal sphincter:
https://brainly.com/question/31862659
#SPJ4
A species of fish is found to require a certain water temperature, a particular oxygen content of the water, a particular depth, and a rocky substrate on the bottom to thrive. These requirements are part of its A) dimensional profile. 8) A species of fish is found to require a certain water temperature, a particular oxygen content of the water, a particular depth, and a rocky substrate on the bottom to thrive. These requirements are part of its A) dimensional profile. B) ecological niche. C) prime habitat. D) resource partition. E) home base. C) prime habitat. D) resource partition. E) home base.
Answer:
B. ecological niche
Explanation:
The oak tree pathogen Phytophthora ramorum migrated 650 km in ten years. West Nile virus spread from New York to 46 others states in five years. The difference in the rate of spread is probably related to A) how lethal each pathogen is. B) the mobility of their hosts. C) the fact that viruses are very small. D) innate resistance. E) none of the above
Answer:
B) the mobility of their hosts
Explanation:
A pathogen that attacks an oak trees and a pathogen that attacks humans doesn't really have that big of a difference, but on the other side we can see that the pathogen that attacks the oak trees is spreading out much less and over much smaller territory than the pathogen attacking humans. The main reason behind this is the mobility of the host of the pathogen and where the host of it lives. In the case with the oak trees, the pathogen will be migrating very slowly over smaller distance because there's only certain places where the oak trees live, and also they are not mobile, and the pathogen will be able to spread out only through their seeds and cones which is a slow process. On the other hand, the pathogen attacking humans will manage to spread out very quickly over very large area because there are humans living in lot of places, their numbers are high, and their mobility is easy and quick over large distances, so the pathogen will travel with its host easily for hundreds or thousands of kilometers and then spread out in another place far away.
Describe the steps to transcribe an mRNA molecule and use the mRNA molecule to produce proteins.
Answer:
Explanation:
The genes in DNA encode protein molecules, which are the "workhorses" of the cell, carrying out all the functions necessary for life. For example, enzymes, including those that metabolize nutrients and synthesize new cellular constituents, as well as DNA polymerases and other enzymes that make copies of DNA during cell division, are all proteins.
In the simplest sense, expressing a gene means manufacturing its corresponding protein, and this multilayered process has two major steps. In the first step, the information in DNA is transferred to a messenger RNA (mRNA) molecule by way of a process called transcription. During transcription, the DNA of a gene serves as a template for complementary base-pairing, and an enzyme called RNA polymerase II catalyzes the formation of a pre-mRNA molecule, which is then processed to form mature mRNA (Figure 1). The resulting mRNA is a single-stranded copy of the gene, which next must be translated into a protein molecule.
During translation, which is the second major step in gene expression, the mRNA is "read" according to the genetic code, which relates the DNA sequence to the amino acid sequence in proteins (Figure 2). Each group of three bases in mRNA constitutes a codon, and each codon specifies a particular amino acid (hence, it is a triplet code). The mRNA sequence is thus used as a template to assemble—in order—the chain of amino acids that form a protein
But where does translation take place within a cell? What individual substeps are a part of this process? And does translation differ between prokaryotes and eukaryotes? The answers to questions such as these reveal a great deal about the essential similarities between all species.
Final answer:
Transcription and translation are the two main processes in protein synthesis. Transcription produces a complementary mRNA from the DNA template, and after processing, the mRNA is used in translation to form a protein. Protein synthesis involves initiation, elongation, and termination, followed by mRNA processing, translation, and folding of the polypeptide.
Explanation:
Overview of Transcription and Protein Synthesis
Protein synthesis begins with the critical process of transcription, during which a segment of DNA is used to create a complementary mRNA molecule. This occurs in the following steps:
Initiation: Transcription factors and RNA polymerase bind to DNA at the promoter region of a gene, unwinding the DNA strand.
Elongation: RNA polymerase moves along the DNA template strand, adding complementary RNA nucleotides to grow the mRNA strand.
Termination: The RNA polymerase reaches a stop signal in the DNA sequence and releases the newly synthesized mRNA strand.
In eukaryotes, the new mRNA undergoes processing which may include splicing, editing, and polyadenylation.
The processed mRNA then travels out of the nucleus into the cytoplasm.
Once in the cytoplasm, translation takes place:
A ribosome attaches to the mRNA.
Transfer RNA (tRNA) molecules with attached amino acids recognize specific codons on the mRNA through their anticodons and bind to the mRNA, bringing the appropriate amino acids into place.
As the ribosome moves along the mRNA, amino acids are joined together forming a polypeptide chain.
The folding of the polypeptide into its functional three-dimensional structure results in the final protein.
Which of the following statements correctly describes the make-up and function of genes? Genes are made of DNA and are carried on chromosomes. Genes are not made of DNA, but they are carried on chromosomes. Genes are made of chromosomes and carried on DNA. Genes are not made of chromosomes but are carried on DNA.
Answer: Genes are made of DNA and are carried on chromosomes.
The statement which correctly describes the make-up and function of gene is that genes are made of DNA and are carried on chromosomes.
DNA is a hereditary material which is present in human beings as well as all other living organisms. Every cell which is present in an organism's body has DNA which is the same. Most of the DNA is situated in the cell's nucleus and small amount of it can be found in the cell's mitochondria as well.
Information which is stored in DNA is stored as codes made up of four chemical bases namely, adenine, thymine , cytosine and guanine.Human DNA consists of 3 billion bases .The order of the bases determines information which is required for building and maintaining an organism.
Thus,the DNA is makes up the gene and are transferred by means of chromosomes.
Learn more about DNA,here:
https://brainly.com/question/30006059
#SPJ4
The species richness of a community refers to the A) number of food chains. B) number of different species. C) energy content of all species. D) relative numbers of individuals in each species. E) total number of all organisms.
Answer:
The species richness of a community refers to the number of different species. B)
The species richness of a community refers to the number of different species.
What is species richness ?Species richness refers to the number of different species represented in a ecological community, niche or specific region.
It simply means count of different species in a community.
This contributes to biodiversity in a specific habitat.
To learn more about species richness :
https://brainly.com/question/21452535
#SPJ2
Which of the following modifications is most likely to alter the rate at which a DNA fragment moves through a gel during electrophoresis? radioactively labeling the cytosine bases within the DNA fragment increasing the length of the DNA fragment leaving the length of the DNA fragment the same altering the nucleotide sequence of the DNA fragment without adding or removing nucleotides
Answer:
increasing the length of the DNA fragment
Explanation:
DNA gel electrophoresis is a method often used in molecular biology, for the separation and analysis of DNA fragments.
Just like the name says it is performed on the gel (e.g. agarose gel) and electric field is applied for the separation of negatively charged DNA fragments. Fragments are separated by size, length (short fragments travel faster towards the positive electrode). Results of the gel electrophoresis are visualized via a DNA-binding dye and UV light and compared with standard reference called DNA ladder.
So, changing the length of DNA fragment, affects its movement through the gel.
The rate at which a DNA fragment moves during electrophoresis is most significantly altered by changing the length of the DNA fragment. This is because larger fragments move slower through the gel as it is more challenging for them to maneuver through the matrix. Radioactive labeling or sequence alterations don't affect this rate.
Explanation:The modification most likely to alter the rate at which a DNA fragment moves through a gel during electrophoresis is increasing the length of the DNA fragment. Electrophoresis works by applying an electric field to a gel prompting the DNA fragments to migrate towards the positive end. The rate of this movement is primarily affected by the size (length) of the DNA fragment. Larger fragments move slower than smaller ones because it is harder for them to maneuver through the gel matrix. On the contrary radioactively labeling the cytosine bases or altering the nucleotide sequence without adding or removing nucleotides doesn't influence the electrophoretic mobility of the DNA fragment.
Learn more about Electrophoresis here:https://brainly.com/question/33839053
#SPJ11
Identify the four postulates of natural selection. Select all that apply.
Survival and reproductive success are variable among individuals in a population.
Individuals in a population all possess the same traits.
Some trait differences are heritable. Individuals with certain traits are more likely to survive and reproduce.
All individuals in a population have equal reproductive success.
Individuals in a population vary in the traits they possess.
the correct choices are A,C,D,F
hope this helps:)
The four postulates of natural selection are survival and reproductive success, heritable trait differences, individuals with certain traits are more likely to survive and reproduce, and individuals in a population vary in the traits they possess.
Explanation:The four postulates of natural selection are:
Survival and reproductive success are variable among individuals in a population. This means that some individuals are more likely to survive and reproduce than others.Some trait differences are heritable. This means that certain traits can be passed down from parents to offspring.Individuals with certain traits are more likely to survive and reproduce. This is known as differential reproductive success.Individuals in a population vary in the traits they possess. This variation in traits is important for natural selection to occur.Learn more about Natural Selection here:https://brainly.com/question/32227158
#SPJ6
Which of the following is not an example of a plant defense against herbivory? A) nicotine B) cryptic coloration C) spines D) thorns E) strychnine
Answer:
B) cryptic coloration
Explanation:
The plants have developed numerous different types to protect themselves from the herbivores because they tend to damage them or even totally destroy them. The development of certain chemicals that are unpleasant or poisonous for the herbivores is one of the defense mechanisms, like the development of nicotine or the highly toxic strychnine. Also, physical defense mechanisms that hurt the herbivores like the spines or thorns have been developed, making the herbivores think twice before they try anything as they can get hurt because of them. The cryptic coloration though is not a defense mechanism of the plants, but instead it is a defense mechanism that is used by the animals. This type of coloration is protecting the animals as it managed to blend them in with the environment, thus it is very hard to spot them, or it makes their shape much different in the eyes of the predators thus confusing them.
Which of the following influences human development?
A.
environment
B.
gene expression
C.
hormones
D.
all of these
The answer would be D. :)
Final answer:
Human development is influenced by environment, gene expression, and hormones. These factors interact in complex ways to shape physical growth, psychological development, and individual traits. Recognizing the role of each factor is vital in understanding human development.
Explanation:
The question asks which of the following influences human development: environment, gene expression, hormones, or all of these. The correct answer is D. all of these. Human development is a complex process influenced by a multitude of factors.
Environment plays a crucial role in shaping an individual's physical and psychological development. For instance, a child's nutritional status, exposure to pollutants, and social interactions can significantly impact their growth and development.
Gene expression is fundamental to development, dictating how cells function and how the body grows. Variations in gene expression can lead to different physical and behavioral traits.
Hormones also significantly influence development, regulating processes such as growth, metabolism, and puberty. Hormonal imbalances can lead to developmental differences.
Understanding the interplay between these factors is key to comprehending the complex nature of human growth and development.
Why did scientists FIRST hypothesize that a meteorite impact caused the extinction at the K-Pg Boundary? They found evidence of wildfires in many regions throughout the globe. They found evidence of acid rain in the rocks in the Southern Hemisphere. They found evidence of a giant tsunami on the Gulf coast. They found evidence of Iridium enrichments in a clay layer that led them to believe that the Iridium was the remains of a meteorite impact. They found evidence of an impact crater in Mexico. Next
Answer:
They found evidence of an impact crater in Mexico
Explanation:
The K-Pg boundary is the boundary between the Cretaceous period and the Paleogene period, but also marking the end of the Mesozoic era and the beginning of the Cenozoic era. This boundary is dated to roughly 66 million years ago. The K-Pg boundary is characterized with a mass extinction. The dominant organisms on Earth all died out, including the dinosaurs, both terrestrial and aquatic, as well as the flying reptilians, with only the birds surviving from that super-family. The reason for the mass extinction has been an impact with an asteroid or a comet, that was very large and hit the Earth where the Yucatan Peninsula in modern day Mexico is located. The impact was devastating, with heat waves, tsunamis, earthquakes, triggering of the majority of the volcanoes, wildfires, all combined managed to devastate the environment, thus big portion of the species living in it as well. The lucky survivors were smaller organisms, and the mammals turned out to be the most successful in occupying the empty niches and have became the dominant organisms on the planet.
A chromosomally XY fetus has a completely functional SRY gene and develops fully functional testes that produce both testosterone and MIS; however, the fetus also has complete androgen insensitivity syndrome. What INTERNAL reproductive organs, aside from the testes, will this fetus develop?
Answer:
Neither the Wolffian ducts nor the Mullerian ducts will develop
Explanation:
SRY gene is the gene is located on the Y chromosome and it is responsible for the development of testes.
MIS is Anti-Müllerian hormone which has the role to prevent the development of Müllerian ducts (they develop into female internal genitalia).
Androgen insensitivity syndrome is a disorder characterized by unfunctional androgen receptors. If androgen receptors are not working properly, the Wolffian ducts (they develop male internal organs) will not develop.
So, with MIS and withandrogen insensitivity syndrome, this fetus will not develop neither the Wolffian ducts nor the Mullerian ducts.
Are princess parrot fish asexual or sexual reproducers?
Answer:
Explanation:
Getting an answer to this question has to be one of the weirdest things you'll ever come across. Nature knows no bounds in her variety of methods of insuring species survival.
These fish are sexual reproducers. The female lays the eggs and they begin an upward motion. At the same time, the male puts his sperm into the water.
What is really weird is that when the fertilized eggs hatch, the offspring are all females. Later, the larger fish become males. That has to be unique.
Genetics help please!!Two mothers give birth to sons at the same time at a busy urban hospital. The son of mother 1 is afflicted with hemophilia, a disease caused by an X-linked recessive allele. Neither parent has the disease. Mother 2 has a normal son, despite the fact that the father has hemophilia. Several years later, couple 1 sues the hospital, claiming that these two newborns were swapped in the nursery following their birth. As a genetic counselor, you are called to testify.Part AWhat information can you provide the jury concerning the allegation?What information can you provide the jury concerning the allegation?Passage of X-linked genes typically occurs in a complicated way and the data available can neither support nor deny the first couple's claim.Passage of X-linked genes typically occurs from affected parent to affected son. The fact that neither parent from couple 1 has hemophilia suggests that their son could not have the condition. The first couple's claim is valid.Passage of X-linked genes typically occurs from affected father to affected son. The fact that the father in couple 2 has hemophilia would ensure his son to have this condition. The first couple's claim is valid.Passage of X-linked genes typically occurs from carrier mother to affected son. The fact that the father in couple 2 has hemophilia would not predispose his son to hemophilia. The first couple has no valid claim.
The transmission of X-linked recessive conditions like hemophilia can occur when a carrier female passes on the disease allele to her son. As neither the father's hemophilia nor the mother's status as a carrier guarantees a son will inherit the condition, the genetic information alone cannot definitively support or disprove the allegations of the first couple.
Explanation:Hemophilia is a disorder caused by a recessive X-linked allele. In order for a male to inherit it, he must receive the recessive allele from his mother, who is generally a carrier but not affected by the disease. If the mother in the first couple were a carrier, it's possible she could pass the condition to her son even without her or her husband having it. However, she could also have a perfectly normal child. Therefore, the first couple's claim cannot be conclusively proven or dismissed.
Secondly, in the case of the second couple, the father's hemophilia wouldn't result in his son inheriting the disorder, as the father can only give a Y chromosome to his son. The inheritance of X-linked traits depends on the mother who, from the provided information, is healthy or if a carrier, was able to pass on a normal X chromosome to her son. As a result, the son of the second couple can be perfectly healthy, as observed. Therefore, the genetic information available neither supports nor disproves the first couple's allegations directly.
Learn more about X-linked inheritance here:https://brainly.com/question/34193226
#SPJ2
Hemophilia is an X-linked recessive disorder, meaning the gene responsible is located on the X chromosome.
For a male to have hemophilia, he must inherit the defective X chromosome from his mother, as males inherit their X chromosome from their mother and their Y chromosome from their father. Since neither parent of mother 1 has hemophilia and both are not mentioned to be carriers, mother 1 must be a carrier (XHXh) and has passed the defective X chromosome (Xh) to her son (XhY), resulting in him having hemophilia.On the other hand, the father from couple 2 has hemophilia (XhY), but did not pass his X chromosome to his son, meaning his son would have inherited a Y chromosome from him and a normal X chromosome (XH) from his mother, resulting in a normal son. This genetic background indicates that the first couple's allegation of a baby swap is not valid as the genetics fit their situation: a carrier mother can have an affected son while an affected father cannot pass the condition to his son.Conclusion: Passage of X-linked genes typically occurs from carrier mother to affected son. The fact that the father in couple 2 has hemophilia would not predispose his son to hemophilia. Therefore, the first couple has no valid claim based on the genetics of hemophilia.
During which process of glass manufacturing does the glass become a solid without crystallizing?
*annealing,
*floating on tin,
*melting the mix or
*washing, drying, and cutting
if i recall from my lesson last week it was melting and mix
The study of chemicals and bonds is called chemistry. There is two types of elements are there and these are metals and nonmetals.
The correct answer is option C which is melting or mixing.
What is glass?Glass is a non-crystalline, often transparent amorphous solid, that has widespread practical, technological, and decorative use in, for example, window panes, tableware, and optics. Glass is most often formed by rapid cooling of the molten form; some glasses such as volcanic glass are naturally occurring.
According to the question, the correct answer is option C melting the mix.
For more information about the glass, refer to the link:-
https://brainly.in/question/3403229
Why is genetic recombination important for species?
A. Genetic recombination allows the genetic material of a cell to be copied before cell division, resulting in daughter cells that can undergo genetic recombination.
B. Genetic recombination allows the genetic material to be expressed, creating both RNA and proteins from a cell's DNA.
C. Genetic recombination allows new genetic combinations and increases the genetic diversity in a population. This drives natural selection and evolution.
D. Genetic recombination allows the best genes to be selected, ensuring that mutated genes aren't passed on to offspring
ANSWER:
The correct option is C- Genetic recombination allows "new genetic combinations' and increases the "genetic diversity in population'. This drives natural selection and evolution.
EXPLANATION:
Genetic recombination is a process wherein "genetic material" is exchanged between different organisms for the production of an offspring. This means that new genetic combinations are created for the offspring to develop with some traits from the parents while some unique traits. Genetic recombination is essentially needed for a species to diversify and grow and prevents it from becoming extinct.From the question, the correct answer is C: Genetic recombination allows new genetic combinations and increases the genetic diversity in a population. This drives natural selection and evolution.
Further Explanation:
Genetic recombination is important because it aids the production of new genetic types. New genetic types are the essential raw materials needed for natural selection and evolution. When new genetic types are produced, they begin to replace existing genetic types; this process is called natural selection.
Genetic recombination is also important in the aspect of enabling various biological developments in eukaryotic cells.
Genetic recombination is also of great importance because it allows organisms evolve in response to changes in the environment.
Genetic recombination can be defined as the rearrangement of Deoxyribonucleic Acid (DNA) sequences through some combination of the fracture, copying and rejoining of chromosomes. It also refers to the possible outcomes of such rearrangements.
Genetic recombination also involves combining DNA from two different sources into a single molecule. Individual genes are not altered; they are simply joined together in new combinations.
Naturally, the combination of DNA from two different persons into one molecule can be done in two steps:
DNA from two different individuals must be combined in a single cell. DNA from two different individuals is joined to successfully form a single molecule.LEARN MORE:
Genetic recombination: https://brainly.com/question/10405574
KEYWORDS:
Genetic recombinationCellsEvolutionDNAChromosomesImagine the autosomal dominant CB allele produces black coat color in dogs, and the recessive Cw allele produces a white coat color. The CB allele is also recessive for lethality; pups with the CBCB genotype die well before birth, and their remains are resorbed by the mother’s uterus. Imagine you cross heterozygous black male dog with a heterozygous black female. What ratio of genotypes and phenotypes do you expect to see in the F1 offspring? If more than one genotype produces the same phenotype, list all the genotype/phenotype combinations separately.
Answer:
the ratio of genotypes will be 2:1 (CBCw:CwCw) and the phenotype ratio will be 1:1 (black dog:white dog)
Explanation:
If heterozygous black male dog is crossed with a heterozygous black female then:
P: CBCw x CBCw
F1: CBCB CBCw CBCw CwCw
Since CBCB genotype will die before birth, the ratio of genotypes will be 2:1 (CBCw:CwCw) and the phenotype ratio will be 1:1 (black dog:white dog).
CBCw genotype, which is heterozygous will produce black phenotype, since the allele CB is dominant over Cw allele.
In peas, the allele for green pods is dominant over the allele for yellow pods. Also, the allele for tall stem length is dominant over that for short stem length. These genes are unlinked. A pure breeding tall pea plant with green pods is crossed with a short pea plant with yellow pods. Write the genotypes of the pea plants and their gametes in the P, F1, and F2 generations. Draw the chromosomes. Use a Punnett square to figure out the phenotypic ratios (the proportion of pea plants with a given phenotype) in the F2 generation.
Answer:
Gametes of the parents are AB for one parent and ab for the other
Gametes of the F1: AB Ab aB ab
Phenotypic ratio in the F2 generatio is 9:3:3:1
Explanation:
If we name the gene for pods color with A and gene for length of the stem with B, then, a pure breeding tall pea plant with green pods which is crossed with a short pea plant with yellow pods is:
P: AABB x aabb
F1: AaBb
F2: picture
Gametes of the parents are AB for one parent and ab for the other
Gametes of the F1: AB Ab aB ab
Phenotypic ratio in the F2 generatio is 9:3:3:1
9-the same phenotype as parents (AABB, AABb, AaBB, AaBb genotypes)
3-tall plant with yellow pods (aaBB, aaBb genotypes)
3-short plant with green pods (AAbb, Aabb genotypes)
1-short plant with yellow pods (aabb genotype)
Which of the following statements is true? Gram-positive bacteria have a single cell wall anchored to the cell membrane by lipoteichoic acid. Porins allow entry of substances into both Gram-positive and Gram-negative bacteria. The cell wall of Gram-negative bacteria is thick, and the cell wall of Gram-positive bacteria is thin. Gram-negative bacteria have a cell wall made of peptidoglycan, whereas Gram-positive bacteria have a cell wall made of lipoteichoic acid.
Answer:
Gram-positive bacteria have a single cell wall anchored to the cell membrane by lipoteichoic acid.
Explanation:
According to Gram stain test, bacteria can be divided into two main groups which differs mostly in the structure of the cell wall"
Gram-positive bacteria-thick cell wall which consist of peptidoglycan layer that is attached to cell membrane via teichoic acids (lipoteichoic acids). Because of their thick wall, after the staining, the violet dye retains, so Gram positive bacteria appear purple-coloured.Gram-negative bacteria-thin peptidoglycan layer with two cell membranes: inner and outer membrane (lipopolysaccharides). Usually, Gram negative bacteria contain porins. After the staining, the dye does not retain, so this type of bacteria appear red coloured.Final answer:
The correct statement is that Gram-positive bacteria have a thick cell wall made of peptidoglycan with lipoteichoic acids anchoring the cell wall to the cell membrane. Gram-negative bacteria, on the other hand, have a thin peptidoglycan layer and an additional outer membrane with different components such as lipopolysaccharides.
Explanation:
The distinction between Gram-positive and Gram-negative bacteria is a critical concept in microbiology, and understanding the structure of their cell walls is key to recognizing these differences. Let's consider the statements one by one:
Option a: This statement is true for Gram-positive bacteria. They have a single, thick cell wall composed largely of peptidoglycan, with teichoic acids, which may be linked to lipids forming lipoteichoic acids that anchor the cell wall to the cell membrane.
Option b: This statement is false because porins are present only in the outer membrane of Gram-negative bacteria, allowing substances to pass through this outer membrane.
Option c: This statement is false. In reality, Gram-negative bacteria have a thin cell wall, while Gram-positive bacteria have a thick cell wall.
Option d: This statement is false as well. Both Gram-negative and Gram-positive bacteria have cell walls made of peptidoglycan. However, Gram-positive bacteria have additional teichoic acids, including the aforementioned lipoteichoic acids, while Gram-negative bacteria have an additional outer membrane containing lipopolysaccharides and lipoproteins.
The accurate statement is option a: Gram-positive bacteria have a single cell wall anchored to the cell membrane by lipoteichoic acid.
Which of the following shows the correct pathway for sperm cells as they leave the testes? Which of the following shows the correct pathway for sperm cells as they leave the testes? ductus deferens, epididymis, seminiferous tubule, rete testis. seminiferous tubule, rete testis, epididymis, ductus deferens. rete testis, seminiferous tubule, epididymis, ductus deferens. ductus deferens, epididymis, rete testis, seminiferous tubule,
Final answer:
The correct sequence for sperm transport as they leave the testes is seminiferous tubules, rete testis, epididymis, and ductus deferens. Sperms are produced in the seminiferous tubules, mature in the epididymis, and are ejaculated via the ductus deferens.
Explanation:
The correct pathway for sperm cells as they leave the testes is: seminiferous tubules, rete testis, epididymis, and ductus deferens. Initially, sperm are produced in the seminiferous tubules. From there, they move into the straight tubules and enter a network of tubules called the rete testis. After leaving the rete testis, sperm pass through efferent ductules into the epididymis where they mature.
The mature sperm are stored in the tail of the epididymis until ejaculation. During ejaculation, sperm are propelled from the epididymis into the ductus deferens, which carries sperm behind the bladder, and joins with the duct from the seminal vesicles to form the ejaculatory duct.
Which of these is an example of natural selection acting on genetic variation resulting in evolutionary adaptation?As global warming has continued, many species that were found near the tropics have migrated either northward or southward toward the poles.As the African environment became drier and the grasslands more prevalent, arched feet and non-opposable toes, both more effective for walking upright, became more common in hominins.Insect diversity in temperate broadleaf forests varies from year to year based on the amount of precipitation.During years of drought, tree rings are narrower.
Answer:
As the African environment became drier and the grasslands more prevalent, arched feet and non-opposable toes, both more effective for walking upright, became more common in hominins
Explanation:
According to Darwin's theory of evolution, natural selection is the main evolutionary mechanism. Darwin explains that organisms that have heritable traits that help them survive and reproduce, will be favorable by natural selection. Those favorable traits will enable organism to better adapt to their environment and to pass more genes on to the next generation (offspring). Favorable traits increase organism's fitness. In the example above, resarched feet and non-opposable toes are favorable traits that helped hominini's survival in the drier environment.
Cationic trypsinogen is an enzyme made in the pancreas that helps to digest food. It is encoded for by the PRSS1 gene. Individuals with a disorder called hereditary pancreatitis have mutations in the PRSS1gene, which result in inflammation of the pancreas, possibly leading to permanent tissue damage. The disorder is inherited in an autosomal dominant fashion. Imagine that you are part of a research team interested in determining the penetrance of a different PRSS1 mutation, Ala16Val. Your team has identified 120 individuals with the PRSS1 Ala16Valallele and found that 48 of the individuals did not display any evidence of pancreatitis. From your data, what is the penetrance of the PRSS1 Ala16Valmutation? Enter you a nswer as a whole number in the blank provided
Answer:
60%
Explanation:
Penetrance in genetics is defined as a proportion of individuals that carry a certain gene (mutation of the gene) with the expressed phenotype (trait). In the example above we wanted to know the penetrance of the PRSS1 Ala16Val mutation. Form 120 individuals, 72 of them expressed some evidence of pancreatitis (120-48). The proportion of them with the expressed trait can be calculated as 72:120=0.6 or 60%.