Thyroid gland will be the focus of diagnostic testing.
The thyroid gland is an endocrine organ that secretes the hormones thyroxine (T4), triiodothyronine (T3), and calcitonin. T3 and T4 are iodinated derivatives of amino acids that work by increasing metabolic rate in body cells.
All body cells are stimulated by the thyroid gland's secretion of triiodothyronine (T3) and thyroxine (T4), which boost the pace at which glucose is broken down by cellular respiration and release energy for a variety of tasks.
The body's metabolism slows down when these two hormones are not released in sufficient amounts, which results in weight gain. In order to identify the exact reason of weight gain in an overweight person, the thyroid gland and its secretions are examined.
To know more about Thyroid gland click here:
https://brainly.com/question/10533967
#SPJ4
Tim is overweight. his physician has decided to test him to see if there is a problem with the regulation of his metabolism. which endocrine gland will be the focus of diagnostic testing?
a. adrenal
b. thymus
c. thyroid
d. pancreas
e. pituitary
If you were observing a live specimen under the 40x objective lens and it moved out of your field of view, explain how you could find it again quickly and easily
If you were observing a live specimen under the 40x objective lens and it moved out of your field of view, there are a few steps you can take to find it again quickly and easily: Move the slide, switch to the 10x objective lens, and located the specimen.
First, move the slide around a bit while looking through the eyepiece. This will help you get a general sense of where the specimen might have moved to.
Next, switch to the 10x objective lens, which has a wider field of view. This will allow you to scan a larger area of the slide and help you locate the specimen more easily.
Once you have located the specimen using the 10x objective, you can switch back to the 40x objective to continue observing it in greater detail.
If you are still having trouble locating the specimen, you can try moving the slide around more systematically, using the mechanical stage controls to move it up, down, left, or right while scanning with the 10x objective. You can also ask a colleague or instructor for help, as they may have additional tips or tricks to share based on their own experience.
To know more about specimen here
https://brainly.com/question/28539789
#SPJ4
Which structure is the adult remnant of the umbilical vein?
a. ligamentum teres
b. ductus venosus
c. vertebral arteries
d. Hydrostatic Pressure
ligamentum teres structure is the adult remnant of the umbilical vein . Thus the Correct option (a).
The ligamentum teres, also known as the round ligament of the liver, is a structure in the human body that is a remnant of the fetal umbilical vein. It extends from the inferior border of the liver to the umbilicus, where it forms a shallow depression called the fossa for the ligamentum teres.
While the umbilical vein in the fetus carries oxygenated blood from the placenta to the developing liver, it is no longer needed after birth when the lungs begin to function. The vein eventually degenerates and becomes the fibrous ligamentum teres, which plays a role in supporting the liver and maintaining its position in the abdominal cavity.
Learn more about ligamentum teres
https://brainly.com/question/15152209
#SPJ4
which genome editing tool is most versatile and easy to use? which genome editing tool is most versatile and easy to use? talen technology zinc finger nuclease technology homologous recombination crisrp-cas9 system
The CRISPR-Cas9 system is arguably the most versatile and easy to use genome editing tool available. This system is based on the use of a small RNA molecule (CRISPR) and an enzyme (Cas9) that can be programmed to target and make changes to specific segments of a genome.
The CRISPR-Cas9 system can be used to perform a variety of genome editing tasks, such as adding, removing, or altering genes. It can also be used to correct genetic mutations responsible for diseases. The system is relatively simple to use and can be used to edit genes in both plants and animals.
Furthermore, this system is cost-effective and accurate, making it an ideal option for genome editing. All of these features make the CRISPR-Cas9 system the most versatile and easy to use genome editing tool available.
Know more about CRISPR-Cas9 system here
https://brainly.com/question/24881426#
#SPJ11
whose main job is to control which substances enter and leave a plant cell.
The main job of the plasma membrane, also known as the cell membrane, is to control which substances enter and leave a plant cell. The plasma membrane is a thin, flexible, and semipermeable layer that covers the outer surface of the cell.
It is responsible for a variety of important functions, including maintaining the cell's shape, protecting it from external harm, and regulating the exchange of materials between the cell and its environment. The plasma membrane is made up of a lipid bilayer, which consists of two layers of phospholipid molecules.
The hydrophobic (water-repellent) tails of the phospholipids face inward, while the hydrophilic (water-attracting) heads face outward, forming a barrier that is selectively permeable. Proteins and other molecules are embedded in this lipid bilayer, forming a complex network of channels and pumps that allow certain substances to enter or leave the cell, while excluding others.
know more about plasma membrane here
https://brainly.com/question/14727404#
#SPJ11
describe three pros and cons associated with fossil fuels?
Answer:
1. Fossil fuels are not renewable energy sources
If we do not reduce consumption, we will run out of them, very quickly. In this case, very quickly means maybe in our life span.
According to Woldometers, we will run out of oil in 47 years, natural gas in 52 years, and coal in 133 years. In the long term, if we want to use energy sources that will never run out, there are better alternatives than fossil fuels.
2. Fossil fuels pollute the environment
Fossil fuels contribute to greenhouse gases, which is one of their major disadvantages. The most harmful for the environment is coal because it has many more harmful combustion products than other fossil fuels.
In contrast, natural gas is the most environmentally friendly fossil fuel simply because it burns much cleaner. It means that if we burn natural gas under perfect combustion circumstances, there will be minimal to no harmful compounds.
But the bottom line is that fossil fuels are probably the main contributors to global warming, which is a major fossil fuel disadvantage because it is one of the biggest threats to humanity. That is why we do not hear good things about fossil fuels.
3. In the case of irresponsible use, they can be dangerous
It is important to note that fossil fuels are not the most dangerous energy sources. If we compare them to nuclear energy, we can easily see that nuclear power is much more dangerous.
But, in case of irresponsible use, they may cause an accident. For example, natural gas is a really flammable energy source, which is both an advantage and a disadvantage. Because of its inflammability, natural gas is the most commonly used energy source in the EU. But on the other hand, it is a combustible material which can explode. This is the biggest disadvantage of natural gas.
But oil is not safer either. In 2010, an ultra-deepwater drilling rig called Deepwater Horizon exploded, causing the largest marine oil spill in history.
Explanation:
where are the most biodiverse ecosystems found on earth
The Andes Mountains Tropical Hotspot is the world's most diverse hotspot. About one-sixth of all plant species in the world live in this region.
Although they only make up roughly 2.3 percent of the planet's land area, biodiversity hotspots are home to 44 percent of the world's flora and 35 percent of its land animals. The majority of plants in a biodiversity hotspot are endemic, which means they are unique to that area of the planet. However biodiversity hotspots are in a conservation crisis by definition. A territory must have lost at least 70% of its original natural vegetation, typically as a result of human activities, in order to be labelled as a biodiversity hotspot.
To know more about Tropical Hotspot click here:
https://brainly.com/question/29460731
#SPJ4
Aawvhat part of the cell cycle would you see a chromosome that looks like this? a) G1 b) Gz C) M d) S Sister chromalids Centromeres_ one on each sister chromalid 0,5
S phase of cell cycle would you see a chromosome that looks like this. Hence option D is correct.
DNA synthesis or replication takes place during the S phase of a cell cycle, which happens during interphase and comes before mitosis or meiosis. By doing this, a cell's genetic material doubles before it begins mitosis or meiosis, providing enough DNA for the cell to divide into daughter cells.
The chromosomes of the cell condense and move toward one another, aligning in the center of the dividing cell, and the nucleus of the cell disintegrates during metaphase. The chromosomes may now be identified when viewed under a microscope.
One of a chromosome's two identical halves that has been replicated in preparation for cell division is known as a chromatid. The centromere, a constrictive area of the chromosome, is where the two "sister" chromatids are linked.
To know about cell cycle
https://brainly.com/question/26138006
#SPJ4
In the Hershey-Chase experiment, what was labeled by growing bacteriophage in 32P-containing medium?A DNAB proteinsC RNAD lipidsE ghost phage particles
In the Hershey-Chase experiment, bacteriophages were used to investigate whether DNA or protein was the genetic material that is transmitted from one generation to another.
The researchers grew bacteriophages in a medium containing radioactive phosphorus-32 (32P) and another group in a medium containing radioactive sulfur-35 (35S). 32P labels DNA and 35S labels protein. The bacteriophages were then used to infect bacterial cells. After infection, the bacteriophages were separated from the bacterial cells by centrifugation. The results showed that when the bacteriophages were grown in 32P-containing medium, the radioactivity was found inside the bacterial cells, indicating that the DNA of the bacteriophage was injected into the cell during infection. However, when the bacteriophages were grown in 35S-containing medium, the radioactivity was found in the supernatant, indicating that the protein coat of the bacteriophage remained outside the cell. Therefore, the 32P was labeled in the DNA of the bacteriophage during the Hershey-Chase experiment, which provided strong evidence that DNA is the genetic material that is transmitted from one generation to another.
To know more about bacteriophages click here:
brainly.com/question/13801297
#SPJ4
10_02_01)
A majority of postganglionic sympathetic neurons release _____________ as a neurotransmitter.
Question 1 options:
1)acetylcholine
2)epinephrine
3)norepinephrine
4)dopamine
A majority of postganglionic sympathetic neurons release norepinephrine as a neurotransmitter. So, option 3) norepinephrine is correct.
The vast majority of postganglionic sympathetic neurons emit the neurotransmitter norepinephrine.
The body's "fight or flight" reaction, which is characterised by a sharp rise in heart rate, blood pressure, and breathing rate, is brought on by the sympathetic nervous system. These reactions are brought about by neurotransmitters released by postganglionic sympathetic neurons that activate adrenergic receptors on target tissues.
Norepinephrine, which binds to alpha and beta adrenergic receptors on target tissues, is the main neurotransmitter released by the majority of postganglionic sympathetic neurons. Norepinephrine is a potent stimulant that raises heart rate and blood pressure, widens airways, and releases glucose from the liver's reserves.
The principal neurotransmitter released by preganglionic sympathetic neurons, in contrast, is acetylcholine, which stimulates postganglionic neurons' nicotinic receptors. As a result, the postganglionic neuron releases norepinephrine onto the target tissues.
To know more about neuron,
https://brainly.com/question/29462317
#SPJ4
what variable change out of the 9 different scenarios in your prediction chart increased photosynthesis?
The variable change out of the 9 different scenarios in the prediction chart that increased photosynthesis is "increase of light intensity."
Light intensity is one of the most important variables in the process of photosynthesis. As the intensity of light increases, so does the rate of photosynthesis. This is because the light is a source of energy for plants. When light intensity increases, more energy is available for the plant to use, allowing it to produce more food (glucose).
As a result, the variable change out of the 9 different scenarios in the prediction chart that increased photosynthesis is "increase of light intensity." The other variables in the chart may also have an effect on photosynthesis, but the increasing light intensity has the greatest impact.
Learn more about photosynthesis at https://brainly.com/question/19160081
#SPJ11
the original neolithic revolution perspective on plant domestication hypothesized that a sharp genetic bottleneck should occur at the domestication event, with more limited gene flow with wild populations after that. instead, recent data has shown that domesticated crop plants often retained high gene flow with wild relatives and high biodiversity until late genetic bottlenecks thousands of years later. what might be producing this effect? a couple sentences to a paragraph.
The original Neolithic Revolution perspective effect can be attributed to a number of factors such as: human selection practices, adaptation to new climates, and interspecific hybridization.
However, recent data has shown that domesticated crop plants often maintained high levels of gene flow with their wild relatives and retained high biodiversity until late genetic bottlenecks thousands of years later. In terms of human selection practices, the selective pressures imposed by humans on domesticated plants likely promoted diversity by inadvertently selecting for a wider array of genes.
Additionally, domesticated plants may have adapted to new climates and habitats, which could have resulted in a broader gene pool and thus more gene flow between wild and domesticated populations. Lastly, interspecific hybridization between wild and domesticated plants may have also contributed to the high gene flow, allowing for greater biodiversity within the domesticated plants.
In conclusion, the observed high genetic flow between wild and domesticated plants is likely due to human selection practices, adaptation to new climates, and interspecific hybridization. All of these factors contributed to the high biodiversity found in domesticated plants even after thousands of years.
To know more about Neolithic Revolution refer here:
https://brainly.com/question/3066828#
#SPJ11
at the beginning of the action potential, which type of ions flow from outside the nerve fiber into the nerve fiber? a. negative potassium b. negative sodium c. positive sodium d. positive potassium
At the beginning of the action potential, positive sodium ions (Na+) flow from outside the nerve fiber into the nerve fiber.
A nerve fiber is part of a neuron that conducts electrical impulses, which transmit information from one cell to another. Axons and dendrites are the two types of nerve fibers that neurons are made up of. Nerve fibers are coated with a fatty substance called myelin that improves the speed of nerve impulses travel along the fiber.
The opening of voltage-gated sodium channels in the membrane of the neuron allows sodium ions to rapidly move into the cell, leading to depolarization and the initiation of the action potential. This influx of positively charged sodium ions generates an electrical signal that propagates down the length of the neuron, ultimately triggering the release of neurotransmitters at the synapse.
Potassium ions (K+) also play a crucial role in the action potential, as they flow out of the neuron during the repolarization phase, restoring the resting membrane potential. However, at the beginning of the action potential, it is the influx of sodium ions that drives depolarization and initiates the electrical impulse.
Learn more about nerve fiber:
https://brainly.com/question/28199936
#SPJ11
Which scientist found that all plants are made of cells
The scientist who found that all plants are made of cells is Matthias Jakob Schleiden. Schleiden's discovery that all plant tissues are composed of cells was a significant breakthrough in the field of biology.
Matthias Jakob Schleiden was a German botanist who made significant contributions to the field of plant biology. Schleiden's discovery that all plant tissues are composed of cells was a significant breakthrough in the field of biology. Schleiden's work, like that of his fellow botanist Theodor Schwann, contributed to the formation of the cell theory. The cell theory, which is now one of the most widely accepted theories in biology, states that all living things are made up of one or more cells, which are the basic unit of life.
Learn more about Matthias Jakob Schleiden: https://brainly.com/question/30420715
#SPJ11
genetically_________disorders are passed one from one parent to their children
Answer:
Genetic disorders are transferred
process by which unrelated organisms independently evolve similarities when adapting to similar environments is called?
The process by which unrelated organisms independently evolve similarities when adapting to similar environments is called convergent evolution.
Evolution is the process by which the inherited traits of biological populations change over successive generations. These traits are the expressions of genes, which are passed down through reproduction from parent to offspring.
The convergent evolution is the process by which organisms adapt to similar environments, creating analogous structures and features, despite not being genetically related.
When organisms with a different lineage independently evolve similar structures, it is known as convergent evolution.
To know more about convergent evolution here:
https://brainly.com/question/30637872#
#SPJ11
Which of the following statements about biomes is correct?A. Each biome type occurs on every continent.B. Most biomes are characterized by unique groups of particular species of plants and animals.C. Most biomes are unaffected by human activity.D. Each continent is home to a biome not found elsewhere on Earth.E. The major factors affecting the distribution of biomes are temperature and precipitation.
The correct answer is B. Most biomes are characterized by unique groups of particular species of plants and animals.
Biomes are large geographic regions with distinct climates and ecosystems that are home to certain groups of plants and animals. These plants and animals are specially adapted to the specific climate, soil, and other environmental conditions of the region. As a result, each biome typically contains a unique set of species that are not found in any other biome. This means that a species found in one biome may not be able to survive in another biome. In addition, human activities, such as land clearing, pollution, and climate change, can alter biomes and the species that inhabit them.
The factors affecting the distribution of biomes are temperature and precipitation. Temperature determines the ability of a region to sustain certain types of vegetation and determines the type of biome that will develop. Similarly, precipitation is also a major factor in determining the type of biome, as different levels of precipitation can create different types of vegetation. Other factors such as soil type and altitude can also affect the type of biome that develops. Therefore the correct option is B
Know more about biomes here:
https://brainly.com/question/1930321
#SPJ11
the rodent entorhinal cortex contains neurons that are known as . group of answer choices
There are various types of neurons in the entorhinal cortex of rodents. The grid cells, on the other hand, are among the most well-known varieties of neurons present in this area of the brain.
The rodent entorhinal cortex contains several types of neurons. There are various types of neurons in the mouse entorhinal cortex, including but not restricted to:
Grid cellsBorder cellsHead direction cellsSpeed cellsPlace cellsObject cellsThe grid cells, on the other hand, are among the most well-known varieties of neurons present in this area of the brain. Neurons known as "grid cells" fire in a distinctive spatial pattern that is laid out in a hexagonal grid. They are crucial to the brain's navigation system and are involved in the processing of spatial information.
To know more about entorhinal cortex,
https://brainly.com/question/31220655
#SPJ4
What structures increase the absorptive area of proximal convoluted tubule cells?
The structures that increase the absorptive area of proximal convoluted tubule cells are microvilli.
The microvilli extend from the apical surface of the cells and increase their surface area, allowing for more efficient absorption of filtrate. The proximal convoluted tubule is the first segment of the nephron, which is found in the kidney.
Its primary function is the reabsorption of ions, water, and nutrients that have been filtered out of the blood by the renal corpuscle. The proximal convoluted tubule has a large number of microvilli that aid in reabsorption.
The proximal tubule reabsorbs around two-thirds of the water, sodium, and potassium ions present in the initial urine. The brush border, which is formed by the numerous microvilli present on the luminal surface of the tubule cells, is responsible for this.
As a result, the term "brush border membrane" is frequently used to refer to the apical surface of proximal tubule cells.
To know more about microvilli here:
https://brainly.com/question/30871186#
#SPJ11
How many electrons enter Complex I from the complete oxidation of pyruvate? A. 8 B. 6 C. 4 D. 2 E. 0
Each NADH carries two electrons and therefore a total of eight electrons enter into Complex I. Complete oxidation of pyruvate yields a total of four NADH molecules, one through the pyruvate dehydrogenase complex and three through the citric acid cycle.
Pyruvate oxidation is a metabolic process that involves oxidizing pyruvate to produce acetyl CoA. Either the loss of electrons or the addition of oxygen is referred to as oxidation. In this instance, the creation of acetyl CoA results in pyruvate losing electrons.
One molecule of glucose is broken down into two molecules of pyruvate in a biological process known as glycolysis. Pyruvate is the byproduct of this process. The Krebs cycle intermediate acetyl CoA is created when pyruvate goes through pyruvate oxidation. The Krebs cycle, sometimes referred to as the citric acid cycle, is another metabolic mechanism that generates high-energy intermediates. In order to produce adenosine triphosphate, two pathways—glycolysis and the Krebs cycle—both exist (ATP). The main source of energy in the body is ATP. It carries sufficient energy to drive numerous biological reactions, thus it is employed to fuel those processes.
To know more about pyruvate click here:
https://brainly.com/question/28320299
#SPJ4
The most conclusive evidence that viruses cause cancers is provided by - finding oncogenes in viruses.
- the presence of antibodies against viruses in cancer patients.
- cancer following injection of cell-free filtrates.
- treating cancer with antibodies.
- some liver cancer patients having had hepatitis.
The most conclusive evidence that viruses cause cancers is provided by - finding oncogenes in viruses is cancer following injection of cell-free filtrates option B.
With numerous investigations and trials carried out over the years, the connection between viruses and cancer has been shown. The injection of cell-free filtrates is one of the most important pieces of evidence for the notion that viruses cause cancer. These filtrates are made by removing all cellular components from a cell culture that has been infected with a virus.
In rare instances, it has been discovered that these filtrates can cause cancer when administered to healthy animals. According to this discovery, viruses or a part of them may be able to cause the genetic changes that result in the growth of cancer.
Although there is not definitive proof, the existence of anti-viral antibodies in cancer patients is also indicative of a viral aetiology of cancer. Although some liver cancer patients with hepatitis suggest a viral connection, not all liver cancer patients have hepatitis, therefore this cannot be regarded as definitive proof.
Learn more about Virus cause cancer;
https://brainly.com/question/31023750
#SPJ4
5. Do you think it's good for tourists to swim with whale sharks? Why or why not? National Geographic
What is competition & Niches, give an example
Humans fight with one another all the time - for employment, athletic rewards, relationships, and so on. Do we, however, vie with other species? If you've ever gone camping and had your food taken by a sly raccoon, bear, or other critter, you've experienced interspecific rivalry - conflict between members of various species who use overlapping, restricted resources.
Resources are often scarce in an environment, and many species may fight for them. Plants in a yard, for example, may fight for soil minerals, water, and sunshine.
The ecological function or "way of life" of a species is characterized by the complete collection of circumstances, resources, and relationships that it requires (or can use).superscript comes to a close. Each species integrates into an ecological group in its own unique manner and has its own set of tolerable environmental variables. A fish species' niche, for example, may be determined in part by the salinity (saltiness), pH (acidity), and temperature variations it can endure, as well as the kinds of food it can consume.
The competitive exclusion principle states that two species cannot occupy the same niche in the same environment and cohabit successfully. Because species with identical niches have equal requirements, they would fight for exactly the same resources.
The image below depicts a renowned illustration of the competitive exclusion principle, which includes two kinds of single-celled microorganisms, Paramecium aurelia and Paramecium caudatum. When fully developed Both kinds flourish in the lab on their own. When cultivated in the same test container (habitat) with the same quantity of nutrients, both grow worse, and P. aurelia ultimately outcompetes P. caudatum for food, resulting in P. caudatum's demise.
which class of major histocompatibility molecules is specific to antigen-presenting cells?O macrophages O dendritic cells O B cells
The class of major histocompatibility molecules that is specific to antigen-presenting cells is dendritic cells.
What are dendritic cells?Dendritic cells are an essential part of the immune system's ability to fight infections and diseases. They are antigen-presenting cells (APCs), which implies that they process and present antigens (foreign substances that activate an immune response) to T-cells (specialized immune cells). They play a crucial role in initiating the immune response to an antigen in the body by presenting it to T-cells that have never seen it before.
The immune system distinguishes between self and non-self substances in the body through the major histocompatibility complex (MHC) molecules. MHC molecules are responsible for presenting antigens to T-cells in order to initiate an immune response. They are classified into two classes: MHC class I and MHC class II.
MHC class I molecules are present on almost all nucleated cells in the body and present antigens to cytotoxic T-cells (Tc).MHC class II molecules are only present on antigen-presenting cells, including dendritic cells, macrophages, and B-cells. They present antigens to T-helper cells (Th), which assist in activating other immune cells to attack the antigen.Learn more about Dendritic cells here: https://brainly.com/question/13022334
#SPJ11
6. 01: Classification of Living Organisms 1. Explain the Linnaean system of classification. What has caused changes to this system since the early 1700s? 2. What are the categories for the Linnaean system? Which is the most specific? Which is the most broad? 3. Explain the domain system. How has it changed over the years? 4. How are gene and protein sequences used to classify organisms? 5. Explain why viruses are considered nonliving. 6. Compare and contrast viruses and bacteria. 7. Make sure you understand phylogeny and cladograms
Swedish botanist Carl Linnaeus created the Linnaean system of categorization, commonly referred to as the binomial system, in the 18th century. It entails classifying living things into hierarchical groupings according to shared traits.
The development of science and technology over time has led to modifications in this system.The seven categories of the Linnaean system are species, genus, family, order, class, phylum, and kingdom, listed from most particular to most broad.A more modern categorization scheme based on molecular biology and genetics is called the domain system. Eukarya, Archaea, and Bacteria are its three domains. Since new scientific advancements and a deeper understanding of the interactions between species have occurred over time, this system has evolved.
learn mote about Linnaean system here:
https://brainly.com/question/2548027
#SPJ4
1. The Linnaean system of classification is a hierarchical system used to classify living organisms based on their characteristics. It was created by Swedish botanist Carl Linnaeus in the mid-18th century.
The Linnaean system was based on organizing organisms into groups based on their physical and structural characteristics. The system has been updated and modified over the years as new information about organisms has been discovered.
2. The Linnaean system includes seven categories or taxa, listed from most specific to most broad: species, genus, family, order, class, phylum, and kingdom. Species is the most specific category, while kingdom is the most broad.
3. The domain system is a more recent system of classification that divides organisms into three domains: Bacteria, Archaea, and Eukarya. This system was proposed in the 1970s by Carl Woese, who used genetic sequencing data to determine the evolutionary relationships between organisms. The domain system has changed over the years as new research has shed light on the relationships between organisms, leading to the creation of new subcategories within the domains.
4. Gene and protein sequences can be used to classify organisms by comparing the similarity of these sequences between different species. The more similar the sequences, the more closely related the species are believed to be. This approach is based on the idea that the genetic material of organisms is passed down from one generation to the next, and that the more closely related two organisms are, the more similar their genetic material will be.
5. Viruses are considered nonliving because they do not meet the criteria for life. They cannot reproduce on their own, and they do not have the machinery necessary for metabolism. Instead, they rely on infecting living cells and hijacking the cell's machinery to replicate themselves.
6. Viruses and bacteria are both very small and can cause disease, but they are fundamentally different. Bacteria are living organisms that can reproduce on their own and have their own metabolism. They are also much larger than viruses and can be seen under a microscope. Viruses, on the other hand, are nonliving and cannot replicate on their own. They rely on infecting living cells and using the cell's machinery to replicate themselves.
Learn more about species here brainly.com/question/29912614
#SPJ4
the nucleotide sequence of an mrna molecule is aug uuc cug uaa. what is the nucleotide sequence of the trna anticodons that would complement this mrna sequence?
Answer:
The sequence of anticods loop in tRNA would be UAC AAG GAC .Explanation:
We know that base pairing occurs between the mRNA and the anitocodon loop of tRNA .
According to base pairing, Adenine forms two hydrogen bonds with Uracil ( Thymine in case of DNA) , And guanine forms three hydrogen bonds with cytosine.
Also there are no tRNA for stop codons . And as UAA is a stop codon , no anitocodon loop is available for it.
So the required nucleotide sequence
AUG UUC CUG UAA
UAC AAG GAC
Related information:-
tRNA :-
In 2D structure it looks like a clover leaf , but in 3D it is inverted L in structure. It has anitocodon loops that has base complementarity with mRNA . Secondly it has amino acceptor end to which it binds to amino acid. There are only one tRNA for each amino acid.
if you hold your arm motionless in the air, which receptors are most important in informing you of your hand position?proprioceptorspressure receptorstactile corpusclesfree nerve endings
The receptors that are most important in informing you of your hand position when holding your arm motionless in the air are proprioceptors.
Proprioceptors are sensory receptors located in the muscles, tendons, and joints that provide information about the position, movement, and orientation of the body parts. They are responsible for the sense of proprioception, which is the awareness of the position and movement of one's body parts without relying on vision.
Pressure receptors, tactile receptors, corpuscles, and nerve endings also play a role in sensing touch and pressure, but they do not provide information about the position and movement of body parts in the same way that proprioceptors do.
To know more about Proprioceptors
brainly.com/question/31038404
#SPJ4
Transport that occurs without a cell expending any of its own energy is called passive transport (true or false).
Answer:
True
Explanation:
In passive transport, transport of substances occurs without the expenditure of energy. It takes place along the concentration gradient as it is the movement of solute from its higher concentration to its lower concentration .
Related information:-
Osmosis:-
It is the movement of water molecules from their higher concentration to lower concentration or movement of water molecules from a region of lower solute concentration to higher solute concentration.
Absorption of water from the roots of plants occurs through osmosis.
Active Transport:-
It is the movement of solute from its lower concentration to its higher concentration. It is done with the expenditure of energy.
e.g. - Na+/K+ pump
a rare disease which is due to a recessive allele (a) that is lethal when homozygous, occurs within a specific population at a frequency of one in a million. calculate the number of individuals in a town having a population of 14,000 can be expected to carry this allele?
In a town with a population of 14,000, we can expect approximately 0.014 individuals to carry the recessive allele for the rare lethal disease.
To calculate the number of individuals in a town of 14,000 who can be expected to carry the recessive allele for the rare lethal disease, we need to consider the frequency of the allele within the population.
Given that the frequency of the recessive allele is one in a million, we can calculate the expected number of carriers by multiplying the population size by the allele frequency.
Expected number of carriers = Population size * Allele frequency
Expected number of carriers = 14,000 * (1/1,000,000)
Expected number of carriers = 0.014
Therefore, in a town with a population of 14,000, we can expect approximately 0.014 individuals to carry the recessive allele for the rare lethal disease.To calculate the number of individuals in a town of 14,000 who can be expected to carry the recessive allele for the rare lethal disease, we need to consider the frequency of the allele within the population.
Given that the frequency of the recessive allele is one in a million, we can calculate the expected number of carriers by multiplying the population size by the allele frequency.
Expected number of carriers = Population size * Allele frequency
Expected number of carriers = 14,000 * (1/1,000,000)
Expected number of carriers = 0.014
Therefore, in a town with a population of 14,000, we can expect approximately 0.014 individuals to carry the recessive allele for the rare lethal disease.
Learn more about lethal disease, here:
https://brainly.com/question/1333528
#SPJ12
Which section of the brain helps regulate heartbeat and respiration?
Brain stem.
The part of the brain which helps regulate the heartbeat and respiration is: (1) brain stem.
Brain is the most complex organ in the humans as they have the most advanced form of brain. The brain is divided into the right and left hemispheres. There can be three division of the brain: forebrain, mid brain and the hind brain.
Brain stem is the lowermost portion of the brain which connects the brain the the spinal cord. The role of brain stem is to regulate most of the autonomously occurring process of the body. This includes the beating of heart, respiration, etc.
Therefore, the correct answer is option 1
To know more about brain, here
brainly.com/question/29587762
#SPJ4
The given question is incomplete, the complete question is:
Which section of the brain helps regulate heartbeat and respiration?
Brain stemCerebreumMedulla oblangataCerebellumdefine what you understand by the term Democracy