Eukaryotes show more modifications to their RNA molecules compared to prokaryotes because eukaryotic mRNA molecules have to undergo several processing steps before they can be translated into proteins. These processing steps include capping, splicing, and polyadenylation, which result in the addition of a 5' cap and a 3' poly(A) tail and the removal of introns from the RNA molecule.
These modifications are important for several reasons. Firstly, the 5' cap and the poly(A) tail help to stabilize the mRNA molecule by protecting it from degradation by nucleases. Secondly, splicing allows for the production of multiple protein isoforms from a single gene by removing non-coding introns and recombining exons in different ways. Thirdly, the modifications facilitate the export of mRNA from the nucleus to the cytoplasm, where translation occurs.
Additionally, eukaryotes have more complex regulatory mechanisms that require more diverse and complex RNA molecules. For example, microRNAs, small non-coding RNA molecules that regulate gene expression, are unique to eukaryotes and require extensive RNA processing and modifications.
Directions: Answer the following questions in your own words using complete sentences. Do not copy and paste from the lesson or the internet.
1. Discuss the following terms:
asexual reproduction
nuclear membrane
reproduction
tetrad
gene
chromosome
nucleus
daughter cell
parent cell
2. Identify the following:
a. the original cell that produces new cells through mitosis or meiosis
b. a group of four chromosomes that takes part in meiosis
c. the sex cell produced by the male
d. a unit of DNA that determines a specific hereditary trait in an organism; comes in pairs
e. a twisted and coiled strand of DNA within the nucleus that carries the codes for reproductive traits such as eye and hair color
f. the process through which organisms produce offspring; creation of a new individual
g. the creation of a new cell or organism identical to the parent; does not involve the union of sex cells
h. the cell part that holds the chromosomes and DNA that controls all cell activities
i. one of the two cells created when a parent cell divides through mitosis
j. a thin wall or covering that surrounds the nucleus of the cell
3. Identify the following:
a. the sex cell produced by the female
b. cell division in which two cells, each with the same number of chromosomes identical to the parent, are produced from one cell
c. cell division that results in the formation of four sex cells, each of which has half the number of chromosomes as the parent cell
d. a cell part that organizes the web along which chromosomes move during cell reproduction
e. a jellylike, living substance inside the cell membrane but outside the nucleus
f. the creation of a new organism through the union of an egg and a sperm
g. the union of a male sex cell (a sperm) and a female sex cell (an egg)
h. the strands of material that determine traits of daughter cells (deoxyribonucleic acid)
i. refers to any trait or material that determines characteristics passed on from the parent(s)
j. a group of molecules used as both building materials for cell growth and as a control factor for cell behavior
4. Complete the following paragraph by adding the correct terms.
Cells can make new cells. One cell can (a) ____________ into two new cells. This is called (b)__________________. The process of cell division goes through various states. First, the cell nucleus (c)________________ into two. A new cell surface membrane then (d)____________ the cell divides. The two new cells are called (e)_______________ and they are small. They will grow and become larger. They grow by getting (f)______________ from the food that is eaten. Once they grow to full size they can also (g)_____________. If cells divide more quickly than they should, or divide in the wrong way, (h)_____________ can develop.
5. Why is RNA necessary to act as a messenger? Why can't the code be taken directly from the DNA? How do some cells become brain cells and others become skin cells, when the DNA in ALL the cells is exactly the same? In other words, if the instructions are exactly the same, how does one cell become a brain cell and another a skin cell?
Answer:
Explanation:
Asexual reproduction: Reproduction that involves only one parent and produces offspring that are identical to the parent.
Nuclear membrane: A double-layered membrane that surrounds the nucleus and separates it from the cytoplasm.
Reproduction: The process by which organisms produce offspring.
Tetrad: A group of four homologous chromosomes that come together during meiosis.
Gene: A unit of heredity that determines a specific trait in an organism.
Chromosome: A structure made up of DNA and protein that carries genetic information.
Nucleus: A membrane-bound organelle in eukaryotic cells that contains genetic information.
Daughter cell: One of the two cells produced by the division of a parent cell.
Parent cell: The original cell that undergoes cell division to produce daughter cells.
a. Parent cell
b. Tetrad
c. Sperm
d. Gene
e. Chromosome
f. Reproduction
g. Asexual reproduction
h. Nucleus
i. Daughter cell
j. Nuclear membrane
a. Egg
b. Mitosis
c. Meiosis
d. Spindle
e. Cytoplasm
f. Sexual reproduction
g. Fertilization
h. DNA
i. Genetics
j. Proteins
a. divide
b. cell division
c. divides
d. forms
e. daughter cells
f. nutrients
g. divide
h. cancer
RNA is necessary to act as a messenger because it is able to leave the nucleus and travel to the ribosomes in the cytoplasm, where it can direct the synthesis of proteins. DNA cannot leave the nucleus, so it needs RNA to act as a messenger between the nucleus and the ribosomes.
Although all cells in an organism contain the same DNA, different cells have different functions because different genes are expressed in different cells. The genes that are turned on and off in a cell determine its function. For example, brain cells and skin cells have different functions because different sets of genes are active in each cell type. The regulation of gene expression is controlled by various factors, including the cell's environment and developmental signals.
the vital capacity minus the ____________ equals the inspiratory capacity.
Answer: Expiratory reserve volume
Explanation:
The vital capacity minus the expiratory reserve volume equals the inspiratory capacity.
The total amount of air that can be expelled from the lungs after taking a deep breath is referred to as vital capacity. It is made up of three elements: Tidal Volume (TV), Inspiratory Reserve Volume (IRV), and Expiratory Reserve Volume (ERV).
Inspiratory capacity refers to the amount of air that can be inhaled into the lungs during deep breathing after exhaling as much as possible. The inspiratory capacity formula is: Inspiratory capacity = Tidal volume + Inspiratory reserve volume.Answer:The vital capacity minus the expiratory reserve volume equals the inspiratory capacity.
More on vital capacity: https://brainly.com/question/15365781
#SPJ11
The binding of a neurotransmitter to its receptor at an inhibitory synapse can lead to the ________ of ________ channels.
A) closure : potassium
B) closure : chloride
C) opening : calcium
D) opening : chloride
E) opening : sodium
The binding of a neurotransmitter to its receptor at an inhibitory synapse can lead to the closure of chloride channels.
What is a neurotransmitter?A neurotransmitter is a molecule that allows communication between nerve cells, or neurons, and muscle or gland cells, known as effectors. Neurotransmitters are released by neurons into the synaptic cleft in response to a stimulus, such as an action potential, and bind to specific receptors on the postsynaptic membrane, causing a response or inhibiting it.
An inhibitory synapse is a synapse that reduces the likelihood of an action potential occurring in the postsynaptic neuron. Inhibitory synapses, like excitatory synapses, release neurotransmitters into the synaptic cleft; however, the neurotransmitter binds to a receptor that opens channels that either cause an outflow of negatively charged ions, such as chloride ions (Cl–), or an inflow of positively charged ions, such as potassium ions (K+), which can result in a reduction in the probability of an action potential being produced. The answer is option B.
Learn more about neurotransmitter here: https://brainly.com/question/26387085
#SPJ11
Which statements describe freshwater sources? Check all that apply.
Rainwater can replace or replenish freshwater sources.
Precipitation, such as rainwater, is the source of freshwater on Earth.
When the amount of surface freshwater increases, so does the amount of groundwater.
Human activity, such as taking a bath, may change the quality of a freshwater resource.
Pollution in lakes does not affect groundwater because the ground acts as a barrier or filter.
Precipitation, such as rainwater, is the source of freshwater on Earth is the source of freshwater .
What is freshwater ?Freshwater is defined as water with less than 1,000 milligrammes per litre of dissolved particles, most commonly salt. Surface water bodies on Earth are usually thought of as renewable resources as part of the water cycle, despite their reliance on other parts of the water cycle.
What is water cycle ?The water cycle is frequently presented as a straightforward continuous cycle of evaporation, condensation, and precipitation. Although this is a helpful model, the reality is far more complex. Water's paths and influences in Earth's ecosystems are highly complex and not fully known. NOAA is working to improve our knowledge of the water cycle at all scales, from global to local, in order to better predict weather, climate, water resources, and ecosystem health.
To know more about freshwater , visit ;
brainly.com/question/1652768
#SPJ1
Answer:
A,B,C,D took on edge
Explanation:
what is the selective agent in natural selection? choose the correct answer. responses humans humans breeders breeders mutations mutations environment environment
The selective agent in natural selection is the environment. Natural selection is the process by which certain heritable traits become more or less common in a population over time as a result of differential reproductive success.
The environment acts as the selective agent by influencing which individuals are more likely to survive and reproduce based on their traits. For example, in a population of organisms living in a cold climate, individuals with thicker fur may be more likely to survive and reproduce than those with thinner fur. Over time, this can lead to an increase in the frequency of the trait for thicker fur in the population. Therefore, the environment plays a critical role in shaping the traits that are favored by natural selection.
To know more about reproductive success click here:
brainly.com/question/15233496
#SPJ4
The formation of sperm is through a process called spermatogenesis. The formation of eggs is through a process called______
Answer:
Oogenesis
Explanation:
In other words, oogenesis is the origin and development of the ovum. Ovum is the female reproductive cell or gamete of animals, which is capable of developing, usually only after fertilization, into a new individual.
Phases of Oogenesis:
1. Multiplication Phase:The primary germinal cells of the ovary with diploid number of chromosomes (2n) divide several times mitotically so as to form a large number of daughter cells known as oogonia. (Attachment #1)
2. Growth Phase:The oogonium does not divide but increases in size enormously to form a primary oocyte. The growth is associated with both nuclear and cytoplasmic growth. The nuclear growth is due to accumulation of large amount of nuclear sap and is termed as germinal vesicle. The cytoplasmic growth is associated with increase in number of mitochondria, endoplasmic reticulum and Golgi complex and accumulation of reserve food material called yolk or vitellin.
3. Maturation phase:The primary oocyte undergoes two successive divisions by meiosis. The first division is meiosis-I and two unequal daughter cells are produced. The large cell is called secondary oocyte containing haploid (n) set of chromosomes (due to reductional or disjunctional division) and entire amount of cytoplasm. The smaller cell is called first polar body or polocyte containing ‘n’ number of chromosomes and practically no cytoplasm. The secondary oocyte and first polar body then undergo second maturation division by meiosis-II which is an equational division. As a result of this division one large ovum is formed containing entire amount of cytoplasm and ‘n’ number of chromosomes and a second polar body like the first polar body. Simultaneously, the first polar body may divide into two polar bodies may not divide at all. Thus only one functional ovum is formed and the two or three polar bodies soon degenerate. In vertebrates the first polar body is formed after the primary oocyte is released from ovary and has entered into the oviduct. The second polar body is formed only when the sperm enters into ovum during fertilization.
antimicrobial peptides work by group of answer choices inhibiting protein synthesis. hydrolyzing peptidoglycan. complementary base pairing with dna. inhibiting cell-wall synthesis. disrupting the plasma membrane.
Antimicrobial peptides work by disrupting the plasma membrane. The correct answer is d.
Antimicrobial peptides (AMPs) are a diverse group of molecules that are synthesized by many organisms, including plants, insects, and humans. Antimicrobial peptides are active against bacteria, fungi, and viruses, making them essential components of innate immunity, which provides the first line of defense against infections.
Antimicrobial peptides, in general, are amphipathic in nature, which means they have both hydrophobic and hydrophilic domains. This permits them to bind to microbial membranes and perturb their structure, resulting in cell death or lysis. AMPs work by disrupting the plasma membrane of bacteria. By acting directly on the bacterial membrane, the majority of AMPs cause membrane damage and destabilization, resulting in cell death.
AMPs also have other effects, including the inhibition of cell wall synthesis, DNA replication, protein synthesis, and transport systems, although the mechanisms by which they accomplish this are still being investigated.
Learn more about antimicrobial peptides here:
brainly.com/question/13051676
#SPJ11
Draw a sketch of a molecule during replication. Make sure you label the replication fork, parent strand, daughter strand, and beginning of replication.
A double-stranded DNA molecule is copied to create two identical DNA molecules through the process of DNA replication. Because every time a cell splits, the two new daughter cells must have the same genetic material, or DNA, as the parent cell, replication is a crucial process.
What's the step-by-step replication procedure?The opening of the double helix and separation of the DNA strands, priming of the template strand, and construction of the new DNA segment are the three main phases in replication. The DNA double helix's two strands uncoil at a specific spot known as the origin during separation.
At what point does DNA replication start?Two DNA polymerases, one on each strand, start copying on each strand as the DNA molecule is torn apart starting at the oriC locus. The DNA continues to split as they develop. The replication fork is the boundary that marks the division between single-stranded and double-stranded DNA.
learn more about replication here
https://brainly.com/question/14347138
#SPJ1
Which of these would be the most energy efficient for you to consume according to what you know about trophic levels?
applesauce
tuna
hamburger
omelet
Answer:
Tuna
Explanation:
Based on trophic levels, applesauce would be the most energy-efficient option to consume, followed by tuna, omelet, and hamburger.
Applesauce is made from fruit, which is produced by plants through photosynthesis, and as such, it occupies a lower trophic level. Tuna, on the other hand, is a carnivorous fish that consumes other fish, occupying a higher trophic level than applesauce. Similarly, hamburger is made from beef, which comes from cows that consume plants, occupying an even higher trophic level. An omelet is made from eggs, which are produced by chickens that consume plants, also occupying a higher trophic level than applesauce.
As we move up the trophic levels, there is a decrease in energy efficiency since each successive level requires more energy to sustain. Therefore, applesauce, which comes from the lowest trophic level, would be the most energy-efficient option to consume, while hamburger, which comes from the highest trophic level, would be the least energy-efficient option.
the tails of animals can serve many important functions. they are mainly used in balance and locomotion. many lizards have a fragile, detachable tail that will come off when they are attacked by predators, allowing them to escape. why is the presence of a brightly colored, detachable tail an advantage for some lizards?
The presence of a brightly colored, detachable tail is an advantage for some lizards as it provides them with a defense mechanism when they are attacked by predators. When a predator grabs the tail, the lizard can easily detach it, allowing them to escape.
This detachable tail is also used to distract the predator while the lizard flees to safety. The bright color of the tail further helps to draw the attention of the predator away from the lizard's body. It distracts predators and provides a chance for the lizards to escape.
In addition, the tail also serves as a form of communication for some lizards. Some lizards use their tails to signal to other lizards, communicating dominance or submission. The coloration of the tail can also signal warning or attraction signals to other lizards or predators.
know more about predators here
https://brainly.com/question/3775053#
#SPJ11
characteristics of animals include all of the following except: group of answer choices heterotrophic eukaryotic cells cell walls made of chitin blastula stage of development multicellularity
The characteristics of animals include all of the following except cell walls made of chitin.
Animals are classified as multicellular, eukaryotic, heterotrophic, and without cell walls. Following are the characteristics of animals: Multicellular organisms , Animals are eukaryotic., Heterotrophic organisms, Cell walls aren't present , Blastula stage of development.
A rigid cell wall encloses a plant cell. Its primary function is to safeguard and maintain the cell's shape. The cell wall is a rigid, polysaccharide structure made up of hemicellulose, pectin, and cellulose, among other substances. It is the component that offers a plant cell its rigidity and strength, allowing it to support the weight of the plant's stem and leaves. The cell wall provides a rigid, protective layer that prevents water loss, protects against pathogens, and contributes to the development of plants, making them more adaptable to their surroundings.
Therefore, A cell wall made of chitin isn't one of the characteristics of animals .
To know more about Cell wall refer here :
https://brainly.com/question/713301
#SPJ11
a new operon called terperon is discovered and is not normally transcribed. it is stimulated by the presence of dukease. what kind of control is terperon?
A new operon called terperon is discovered and is not transcribed. It is stimulated by the presence of dukease, then kind of control terperon is : Positive repressible
What is meant by operon?Cluster of genes that are transcribed together to give a single messenger RNA (mRNA) molecule, and which therefore encodes multiple proteins is called operon.
Based on the information provided, it seems that terperon is under positive repressible.
Repressible control is where a gene is transcribed but can be turned off in response to a specific signal or corepressor whereas in inducible control, gene is not transcribed until the inducer is present.
Therefore, based on the information provided, it seems that terperon is positive repressible.
To know more about operon, refer
https://brainly.com/question/13576345
#SPJ1
how long is the secondary oocyte viable and capable of being fertilized after it is ovulated? how long is the secondary oocyte viable and capable of being fertilized after it is ovulated? 24-36 hours 36-72 hours 12-24 hours a full week
The secondary oocyte is viable and capable of being fertilized for 24-36 hours after it is ovulated. During this time, it must be fertilized by a sperm in order for pregnancy to occur. If fertilization does not occur within this time frame, the secondary oocyte will degenerate and be shed from the body during the next menstrual cycle.
The secondary oocyte is produced during the process of meiosis II, which occurs in the ovary. Once the secondary oocyte is released from the ovary and enters the fallopian tube, it must be fertilized by a sperm in order to develop into an embryo. If fertilization does not occur within the 24-36 hour time frame, the secondary oocyte will degenerate and be shed from the body during the next menstrual cycle.
In order for pregnancy to occur, the secondary oocyte must be fertilized by a sperm within this time frame i.e., 24-36 hours. Once fertilization occurs, the secondary oocyte becomes a zygote and begins to develop into an embryo. The zygote will then travel down the fallopian tube and implant into the lining of the uterus, where it will continue to grow and develop into a fetus.
The length of time that the secondary oocyte is viable and capable of being fertilized is important to understand for family planning purposes. Women who are trying to conceive can use this information to determine the optimal time to have intercourse in order to increase their chances of becoming pregnant. On the other hand, women who are trying to avoid pregnancy can use this information to determine when they are most fertile and take appropriate precautions to prevent pregnancy.
For more such questions on Secondary oocyte.
https://brainly.com/question/17989041#
#SPJ11
if an individual suffered damage to the brainstem, they would likely experience difficulty controlling their breathing, blood pressure and eye movements.
true
false
True. The brainstem is a crucial part of the brain that connects the brain to the spinal cord and controls many vital functions, including breathing, blood pressure, and eye movements.
Damage to the brainstem can disrupt the normal functioning of these functions and lead to various problems. Breathing difficulties can arise due to the disruption of the respiratory centers located in the brainstem. Blood pressure regulation can also be affected as the brainstem houses the cardiovascular control centers that regulate heart rate and blood pressure. Damage to the brainstem can also result in problems with eye movements and control, leading to difficulty with focusing, tracking, or coordinating eye movements. Therefore, it is likely that an individual who suffered damage to the brainstem may experience difficulty controlling their breathing, blood pressure, and eye movements.
To know more about brainstem click here:
brainly.com/question/5351789
#SPJ4
both base substitution and frameshift mutations can result in the formation of premature stop codons. true or false
Premature stop codons can be created via nucleotide substitution as well as frameshift mutations. True.
One of the three base pair is changed by another, and this frameshift mutation causes codons to be read that correspond to a different amino acid. Also, it changes what Codon the sequence's initial stop encounters. Premature stop codons can be created via nucleotide substitution as well as frameshift mutations.
In the Ames test, any colonies that develop on the control should be the consequence of unplanned alterations. Transduction cannot take place without cell-to-cell interaction. Premature stop mutations can develop as a consequence of changes in somatic or germline DNA, insufficient or erroneous pre-mRNA splicing, or incorrect RNA editing.
Learn more about mutations Visit: brainly.com/question/12732356
#SPJ4
most of the water that evaporates from leaves passes out through the?
Most of the water that evaporates from leaves passes out through the stomata. Stomata are found in the epidermis.
Stomata are the tiny pores on the surface of the leaf where gases are exchanged. They are found in the epidermis, which is the outermost layer of the leaf. Stomata are found on both the upper and lower surfaces of the leaf in most plants, and they open and close in response to environmental stimuli like light, humidity, and carbon dioxide concentration. Stomata allow for the exchange of gases in the plant, including the exchange of oxygen and carbon dioxide during photosynthesis and the exchange of water vapor during transpiration.
Learn more about Stomata: https://brainly.com/question/15312174
#SPJ11
in the bay area of california, the eastern gray squirrel is very common. you move there and notice that most squirrels are medium gray in color. however, around stanford university, many of the squirrels of that species are black. you decide to keep your eyes open and observe the squirrels to try to figure out as much as you about the genetics of the black fur trait, without actually touching any squirrels. which of these observations would tend to point to the black fur color being as result of the action of multiple genes, not a single gene?
By observing these types of phenomena, you may be able to gain insight into the genetic basis of the black fur color trait in the eastern gray squirrel population around Stanford University.
What observations would tend to support this hypothesis?If the black fur color is the result of the action of multiple genes, not a single gene, then the following observations would tend to support this hypothesis:
Variation in black fur color intensity: If some black squirrels have darker fur than others, it could indicate that there are multiple genes controlling the expression of the black fur trait, leading to variation in the intensity of the color.
Intermediate fur colors: If some squirrels have fur colors that are not quite black, but also not quite gray, it could suggest that there are multiple genes involved in determining fur color, with some squirrels inheriting more "black" genes than others.
Segregation of traits in offspring: If two black squirrels produce offspring with varying fur colors (some black, some gray), it could indicate that the black fur trait is controlled by multiple genes, which are segregating independently during meiosis and being passed on to offspring in different combinations.
Environmental influences: If the same squirrel can have different fur colors at different times of the year, it could suggest that the black fur trait is not entirely genetic and can be influenced by factors such as temperature or diet.
Learn more about observation here: https://brainly.com/question/584814
#SPJ1
What is an example of the endocrine system directly interacting with the circulatory system?
An example of the endocrine system directly interacting with the circulatory system is the release of hormones into the bloodstream.
The endocrine system is a complex network of glands that produce and secrete hormones directly into the bloodstream. Hormones are chemical messengers that aid in the coordination and regulation of numerous physiological processes throughout the body. The circulatory system is responsible for the distribution of blood and nutrients .
Hormones produced by the endocrine system can interact directly with the circulatory system by being released into the bloodstream and traveling to target tissues and organs. As a result, the endocrine system plays a critical role in the regulation of numerous physiological processes throughout the body, including metabolism, growth and development, reproduction, and stress response.
Know more about bloodstream here:
https://brainly.com/question/30062142
#SPJ11
which enzyme is used to break down triacylglycerol into fatty acids and glycerol?O lipaseO hydrolaseO hyaluronidaseO enzyme
The enzyme used to break down triacylglycerol into fatty acids and glycerol is lipase. Lipases are a type of hydrolase enzyme which work by breaking down lipids into their component parts.
Enzymes are biological molecules that serve as catalysts and accelerate chemical reactions in living systems by lowering the activation energy. They are protein molecules that catalyze the conversion of substrates into products without being consumed in the process. Enzymes are of two types: simple enzymes and complex enzymes. Some enzymes are found in the extracellular fluid, while others are found within the cell. Enzymes are critical to the smooth functioning of metabolic pathways since they catalyze the conversion of one substance to another.
More on enzymes: https://brainly.com/question/30715201
#SPJ11
When did Mendel established heredity principles?
In 1865, Mendel established heredity principles. The theories of this principles put forward by Gregor Mendel in 1865 provide the basis of our current knowledge of how characteristics may be passed down through generations.
Gregor Mendel created the mathematical groundwork for the study of genetics through the meticulous breeding of garden peas, through which he uncovered the fundamental principles or ideas of heredity. In what became known as Mendelian inheritance, he developed a number of fundamental genetic rules, including the laws of segregation, dominance, and independent assortment.
Gregor Mendel was an Augustinian priest, scientist, and educator from Austria who lived in the 1800s. He is regarded as the founder of modern genetics and conducted experiments on hybrid garden peas while residing in a monastery.
Learn more about Mendel Visit: brainly.com/question/569932
#SPJ4
Currently the District of Columbia and how many states are in the process of licensing the massage-therapy profession?
38
45
19
25
Currently, the District of Columbia and 45 states are in the process of licensing the massage-therapy profession.
The correct option is B.
What is massage therapy?Massage therapy is a hands-on approach to manual therapy that involves manipulating the soft tissues of the body, such as muscles, tendons, ligaments, and fascia, to improve physical and mental health.
The therapist uses various techniques, including pressure, kneading, rubbing, and vibration, to alleviate pain, reduce tension and stiffness, improve circulation, and promote relaxation.
Massage therapy is regulated in the District of Columbia, and practitioners must obtain a license from the Department of Health's Board of Massage Therapy to practice legally.
Learn more about massage therapy at: https://brainly.com/question/31206563
#SPJ1
A classic television show was called Third Rock from the Sun, about aliens living on another celestial body. Based on the title, which celestial object was the show about?
Venus
Mars
Earth
the Moon
The classic television show "Third Rock from the Sun" was about aliens living on Earth.
What is the third rock from sun?Third Rock from the Sun" was a popular American television show that aired from 1996 to 2001. The show was a science-fiction comedy that followed a group of aliens who come to Earth from their home planet, which is never named in the show.
The title "Third Rock from the Sun" refers to the fact that Earth is the third planet from the sun in our solar system, as viewed from the center of the solar system. The show takes place entirely on Earth and follows the aliens as they try to understand human culture and behavior.
So, in summary, the show is about aliens who come to live on Earth, which is the third planet from the sun, hence the title "Third Rock from the Sun".
Learn more about Third Rock from the Sun here: https://brainly.com/question/30133740
#SPJ1
a plant has a unique photosynthetic pigment. the leaves of this plant appear to be blue. what wavelengths of visible light are not being absorbed by this pigment?
Because blue and violet do not show in the light that reaches our eyes from plants, we know that they are not reflected by this plant and are instead absorbed and used in photosynthesis.
What is photosynthesis?The term photosynthesis implies "combining." This signifies "joining forces with the aid of light."
Photosynthesis also applies to organisms other than green plants. Cyanobacteria, purple bacteria, and green sulfur bacteria are among the prokaryotes. These species, like green plants, are capable of photosynthesis. Photosynthesis produces glucose, which is then used to power numerous cellular functions. This physio-chemical process produces oxygen as a byproduct.
What are the byproducts of photosynthesis ?In the presence of light, photosynthesis employs organic molecules such as carbon dioxide and water to create glucose. This process occurs in the green leaves of growing plants.
Photosynthesis produces glucose, oxygen, and water as byproducts.
To know more about Photosynthesis , visit ;
brainly.com/question/30860793
#SPJ1
during the pcr, the hydrogen bonds of the double-stranded dna molecules are broken by the enzyme helicase. group startstrue or falsetrue, unselectedfalse, unselectedgroup ends
During the PCR process, the statement "During the PCR, the hydrogen bonds of the double-stranded DNA molecules are broken by the enzyme helicase" is FALSE.
Enzymes play a significant role in the amplification of DNA during PCR, but enzyme helicase is not one of them. Polymerase Chain Reaction, or PCR for short, is a scientific method for rapidly multiplying the number of copies of a particular DNA sequence. The process includes the repeated cycles of three main steps, namely denaturation, annealing, and extension.
Polymerase Chain Reaction amplifies the DNA fragments by breaking hydrogen bonds between complementary base pairs in the double helix of DNA. This is accomplished by heat or a chemical substance such as an acid. DNA polymerase is then used to attach new nucleotides, making the DNA single-stranded. therefore, the given statement is false as helicase is involved in unwinding the DNA.
Learn more about the enzyme: https://brainly.com/question/14577353
#SPJ11
what is the subclass for catalase and which organism contains the catalase with the lowest temperature optimum
Catalase enzyme is a class of the oxidoreductase enzyme subclass. It catalyzes the conversion of hydrogen peroxide into water and oxygen. The enzyme also requires a co-factor like heme to function properly. The catalase enzyme falls under this subclass because of its ability to catalyze the conversion of hydrogen peroxide into water and oxygen.
Catalase is found in all living organisms exposed to oxygen, and has a wide range of temperature optimum, depending on the organism it is found in.The lowest temperature optimum catalase enzyme is found in an organism called Thermus thermophilus HB8.
This organism is a thermophilic bacterium that thrives at high temperatures. The catalase enzyme in this organism has an optimum temperature of about 60 degrees Celsius.The subclass of catalase enzyme is oxidoreductase enzyme subclass.
It is an enzyme class that catalyzes the oxidation-reduction reaction of substances. It does this by accepting electrons from one substance (the reducing agent) and donating electrons to another substance (the oxidizing agent).This class of enzyme is divided into different subclasses based on their specific function.
To learn more about Catalase enzyme here:
https://brainly.com/question/1560864
#SPJ11
a child with no freckles has a mother who has freckles and is heterozygous and a father who has no freckles and is homozygous recessive. the child would represent which example? responses heterozygous dominant heterozygous dominant heterozygous heterozygous homozygous dominant homozygous dominant homozygous recessive
The child would represent the heterozygous dominant example.
The mother has freckles and is heterozygous, which means she carries one allele that causes freckles and one allele that prevents them. The father is homozygous recessive, which means he possesses two recessive genes that are responsible for his lack of freckles.
Each parent contributes one allele to their child when the two parents have children. The child would therefore receive one allele for freckles from the mother and one allele for no freckles from the father. The child would express freckles and be heterozygous dominant since the allele for freckles is dominant.
To know more about heterozygous click here
brainly.com/question/1626661
#SPJ4
when sucrose is catabolized into glucose and fructose, fructose will first be phosphorylated and then enter glycolysis at which step?
When sucrose is catabolized into glucose and fructose, fructose will first be phosphorylated and then enter glycolysis at the step 3. The breakdown of sucrose into its monomers occurs in two distinct steps, the cleavage of the glycosidic bond by sucrase, followed by the transport of glucose and fructose into the cytoplasm by a respective monosaccharide transporter. These monosaccharides enter the glycolytic pathway, which generates energy for the cell.
The glycolytic pathway is a series of ten enzyme-catalyzed reactions that breaks down glucose and other sugars into pyruvate. The overall reaction is exergonic, which means it releases energy. The glycolytic pathway is an ancient pathway, which is conserved in most organisms. In eukaryotes, glycolysis occurs in the cytoplasm.
The fructose generated by the cleavage of sucrose by sucrase first undergoes phosphorylation by fructokinase. Fructokinase phosphorylates fructose to fructose-1-phosphate (F-1-P) in a reaction that uses ATP. This reaction, which occurs in the cytoplasm, traps fructose inside the cell, making it available for metabolism. Fructose-1-phosphate is then cleaved by aldolase-B into two trioses, glyceraldehyde and dihydroxyacetone phosphate. These trioses can then enter the glycolytic pathway at different points. Glyceraldehyde-3-phosphate dehydrogenase catalyzes the conversion of glyceraldehyde to glyceraldehyde-3-phosphate, which enters glycolysis at step 6.
For more such questions on Glycolytic pathway.
https://brainly.com/question/28585998#
#SPJ11
What are some examples of ergogenic aids and the risks associated with using them?
Ergogenic aids are substances or techniques that are believed to enhance athletic performance. Here are some examples of ergogenic aids and their associated risks:
Anabolic steroids: These are synthetic versions of testosterone, which can promote muscle growth and improve performance. However, they also have serious side effects such as liver damage, heart disease, and psychological effects.
Caffeine: This is a stimulant that can enhance endurance and reduce fatigue. However, excessive consumption can lead to dehydration, anxiety, and heart palpitations.
Creatine: This is a supplement that can increase muscle mass and strength. However, it can also cause gastrointestinal problems, muscle cramps, and kidney damage.
Blood doping: This involves injecting blood or erythropoietin (EPO) to increase the number of red blood cells and improve endurance. However, it can also increase the risk of blood clots, heart attack, and stroke.
Human growth hormone (HGH): This is a hormone that can stimulate muscle growth and reduce body fat. However, it can also cause joint pain, swelling, and high blood pressure.
It's important to note that the use of ergogenic aids is often illegal and can have serious health consequences. Athletes should always consult with a healthcare professional before using any type of performance-enhancing substance or technique.
To know more about Ergogenic aids, visit the link given below:
https://brainly.com/question/2395126
#SPJ4
What are the two types of proteins used in facilitated diffusion?
Answer: carrier proteins and channel proteins.
Explanation:
describe two characteristics shared by chloroplasts and mitochondria. consider both function and membrane structure.
Chloroplasts and mitochondria are two types of organelles found in eukaryotic cells that are essential for energy metabolism. Despite their distinct functions, they share some key characteristics in terms of their function and membrane structure.
First, both chloroplasts and mitochondria are enclosed by double membranes. The outer membrane is relatively smooth, while the inner membrane is highly folded, forming a series of interconnected sacs or cristae. These membranes provide a large surface area for the electron transport chain and ATP synthesis, which are critical for the organelles' respective functions.
Second, both organelles are involved in the energy metabolism of the cell. Chloroplasts are responsible for photosynthesis, which converts light energy into chemical energy in the form of glucose. Mitochondria, on the other hand, are responsible for cellular respiration, which breaks down glucose to produce ATP, the primary source of energy for the cell.
Overall, the shared characteristics of chloroplasts and mitochondria are related to their ability to generate and utilize energy in the cell. Their membrane structures provide a large surface area for energy metabolism, while their functions complement each other to ensure the efficient use of energy in the cell.
To know more about eukaryotic cells, refer here:
https://brainly.com/question/29512671#
#SPJ11