What is the function of the Pseudostratified columnar epithelium and where is it found?
Ciliated pseudostratified columnar epithelia is a type of respiratory epithelia found in the trachea and other respiratory tracts that provides for the filtering and humidification of incoming.
Pseudostratified ciliated columnar epithelial cells, which are most common along the respiratory system, help trap and transport particles that enter through the nasal passages and lungs. Because ciliated pseudostratified columnar epithelia is primarily located in the larger respiratory airways of the nasal cavity, trachea, and bronchi, it is also known as respiratory epithelium. pseudostratified.
Most importantly, all cells have a basement layer. This type of epithelium is located in the respiratory tract and is responsible for secreting mucous and moving material up the respiratory tract via the beating of cilia. Cilia are long appendages of the body.
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what is the function of the lacz gene?
what are the functions of the pelvis? sports med
The pelvis is an important structure in the human body and is essential for many bodily functions. The pelvis serves to support the spine and provides a sturdy base for the body.
It is the bony structure located in the lower part of the abdomen and is comprised of the sacrum, coccyx, and hip bones. The main functions of the pelvis are to provide support for the spine, act as an anchor for the muscles of the lower body, protect the reproductive organs, and aid in childbirth. Its bony structure helps to protect the spinal cord from external forces, reducing the risk of injury. It also acts as an anchor for the muscles of the lower body, such as the gluteal muscles, abductors, adductors, and the pelvic floor muscles. These muscles help to stabilize the spine and pelvis, providing strength and stability during movements such as walking and running.
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what is spinal cord labeled?
The spinal cord is typically divided into segments and labeled based on its position relative to the corresponding vertebrae.
There are 31 pairs of spinal nerves that emerge from the spinal cord and are named based on the level of the spinal cord from which they originate. The spinal cord is divided into four regions, each with a different number of spinal segments:
Cervical region: This is the uppermost region of the spinal cord, consisting of 8 spinal segments (C1-C8).
Thoracic region: This region is located in the middle of the spinal cord and consists of 12 spinal segments (T1-T12).
Lumbar region: This region is located in the lower back and consists of 5 spinal segments (L1-L5).
Sacral region: This is the lowest region of the spinal cord, consisting of 5 fused segments (S1-S5).
In addition to these four regions, there is also a coccygeal region, which consists of 1-2 spinal segments that form the coccyx or tailbone. Overall, the spinal cord is labeled based on its location and the segments that correspond to each region.
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what role does atp hydrolysis play in the function of the proteasome?A) for the substrate to unfold.B) responsible for targeting specific protein substratesC) damaged cell organelles or unused proteins are degraded.
The correct option is (B), i.e., responsible for targeting specific protein substrates. The 26S proteasome degrades folded and unshaped polyubiquitylated proteins by a process requiring ATP hydrolysis.
It couples mechanisms needed for declination, including substrate unfolding( when demanded), deubiquitylation, translocation, and declination. The proteasome is a multisubunit enzyme complex that plays a central part in regulating specific protein substrates that control cell-cycle progression and apoptosis and has thus become an important target for anticancer remedies.
ATP is needed for the covalent conjugation of ubiquitin to protein substrates. This revision markedly enhances the declination rates of some, but not all, proteins. Second, ATP appears to stimulate the exertion of a protease that can demean both ubiquitinated and-ubiquitinated proteins.
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Descriptive epidemiology characterizes the amount and distribution of disease within a population and enables the researcher to:
Answer:
Descriptive epidemiology characterizes the amount and distribution of disease within a population and enables the researcher to: Generate testable hypotheses regarding etiology and Evaluate trends in health and disease within a population.
Explanation:
how did matthew meselson and franklin stahl separate dna samples into density bands during their experiment?
Matthew Meselson and Franklin Stahl used a technique called density gradient centrifugation to separate DNA samples into density bands during their experiment.
They first grew E. coli bacteria in a medium containing a heavy isotope of nitrogen, N-15, so that all the bacterial DNA was labeled with this heavy isotope. The bacteria were then transferred to a medium containing a lighter isotope of nitrogen, N-14, and allowed to grow and divide for one generation.
At this point, Meselson and Stahl took a sample of the DNA and extracted it from the bacteria. They then subjected this DNA sample to density gradient centrifugation, where the DNA was spun in a centrifuge tube containing a gradient of a heavy salt solution such as cesium chloride. The tube was spun at high speeds, causing the DNA to separate into bands according to its density. The heavier DNA containing N-15 ended up at the bottom of the tube, while the lighter DNA containing N-14 ended up closer to the top. By analyzing the density of the DNA in each band, Meselson and Stahl were able to determine how the DNA replicated during bacterial cell division.
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how to identify autosomal dominant pedigree
If the trait is dominant, one of the parents must have the trait. Dominant traits will not skip a generation. If the trait is recessive, neither parent is required to have the trait since they can be heterozygous.
Genetic qualities can be passed from one parent to their offspring in an autosomal dominant manner. When a trait is autosomal dominant, just one parent's genes must be altered in order for it to be passed on. An autosomal trait will be inherited by 50% of the offspring of a parent who carries it. The only things that can be transferred from parents to their children are alterations that take place in the DNA of the sperm or egg.
Such inheritance pattern is known as autosomal recessive. A parent will not exhibit symptoms if they carry an autosomal recessive trait. Both parents must possess it in order to pass it on to their offspring. Yet, because they don't exhibit any symptoms, they frequently aren't even aware that they have it. For a genetic illness or trait to be inherited in an autosomal recessive pattern, both parents must convey a changed gene to their offspring. If both parents carry an autosomal recessive gene, one-fourth of their offspring will also be affected. The only things that can be transferred from parents to their children are alterations that take place in the DNA of the sperm or egg.
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What stem-loop conformations favor attenuation in the trp operon?
-1-2
-1-2 and 2-3
-2-3
-1-2 and 3-4
1-2 and 3-4
If CAP could
Option d) 1-2 and 3-4 are stem-loop conformations favor attenuation in the trp operon.
A stem-loop is a structural unit of single-stranded RNA or DNA. A stem-loop is made up of a stem, a double helix, and a loop that connects the stem. The word 'fun' comes from the phrase 'funny'. Tetraloops, which are stem-loops with four nucleotides in the loop, are common in RNA.
Large stem-loops contribute greatly to the creation of more complex secondary structures, which are frequently critical for the activity of sequence elements governing gene expression.
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What are the five largest horse breeds?
The five largest horse breeds in the world, in terms of height and weight, are: Shire, Clydesdale, Percheron, Belgian and Dutch Draft.
Shire: The Shire is the largest horse breed, with an average height of 16 to 18 hands (64 to 72 inches, or 163 to 183 cm) and a weight of 1,800 to 2,400 pounds (816 to 1,088 kg).
Clydesdale: The Clydesdale is a Scottish breed that is known for its size and strength. It has an average height of 16 to 18 hands (64 to 72 inches, or 163 to 183 cm) and a weight of 1,800 to 2,200 pounds (816 to 998 kg).
Percheron: The Percheron is a French breed that is known for its power and endurance. It has an average height of 15 to 18 hands (60 to 72 inches, or 152 to 183 cm) and a weight of 1,800 to 2,600 pounds (816 to 1,179 kg).
Belgian: The Belgian is a draft horse breed that originated in Belgium. It has an average height of 16 to 18 hands (64 to 72 inches, or 163 to 183 cm) and a weight of 1,800 to 2,200 pounds (816 to 998 kg).
Dutch Draft: The Dutch Draft is a breed of draft horse that originated in the Netherlands. It has an average height of 16 to 17 hands (64 to 68 inches, or 163 to 173 cm) and a weight of 1,500 to 2,000 pounds (680 to 907 kg).
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Using what you know of gene expression in a cell, explain what causes traits of parents (such as hair color) to show up in their offspring.
Characteristics are determined by parents' genes. The genetic makeup of offspring is the result of each parent passing one copy of each gene to each offspring.
The traits of the children are determined by these inherited genes. As a result, parents' traits frequently show up in their children. Genes direct cells to generate particular proteins and enzymes, and these proteins' combined effects result in an individual's inherited features. the method through which a gene in a cell is activated to produce RNA and proteins. The RNA, the protein generated from the RNA, or the function of the protein in a cell can all be used to quantify gene expression. By their genes, parents transmit features or qualities to their offspring, such as eye colour and blood type. One trait can occasionally take in numerous versions.
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What is broken down into two molecules of blank during glycolysis?
During the glycolysis, glucose will be broken down into two molecules of pyruvate.
Glycolysis is the metabolic pathway that converts glucose into pyruvate, producing ATP and NADH in the process. It occurs in the cytoplasm of cells and is the first step in both aerobic and anaerobic respiration.
The process of glycolysis involves a series of enzymatic reactions that break down glucose into two molecules of pyruvate. The first step is the phosphorylation of glucose to form glucose-6-phosphate, which is then converted to fructose-6-phosphate. This is followed by a series of reactions that generate ATP and NADH, and eventually, the production of two molecules of pyruvate.
Pyruvate is a key molecule in cellular respiration, and it can be further metabolized in the mitochondria through the Krebs cycle and oxidative phosphorylation to produce more ATP.
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1.If you could add channels to the membrane that make it permeable to peptides and water, what do you think would happen to the peptide and water molecules in the cell? 2. If, after adding those channels, you were to wait long enough for the system to equilibrate (i.e., reach a stable state in which the number and type of molecule in each compartment no longer changes much over time), about how many peptide molecules would you expect to find on the left side of the cell and how many on the right? How about the water molecules? currently there are 40 on the left and 80 peptide molecules on the right
1. They would start diffusing to the opposite side of the cell. Until they established an equilibrium, the peptides would move to the right and the water molecules to the left.
2. Given that there are 40 total peptide molecules, there would be around 20 on each side of the body, so for the system to be equal on both sides, there must be an equal number on each side.
Similar to how there must be equal amounts of water on both sides, there will be 40 on both the left and the right because there are 80 in total.
What are the two ways that water crosses a cell membrane?Diffusion and osmosis are the two mechanisms that move water across cell membranes.
The overall solute concentrations and the permeabilities of the solutes in relation to water determine a biological fluid's effective osmolality.
What causes water to pass through a barrier that is selectively permeable?When water moves through a semipermeable membrane in an osmotic process, it does so in accordance with the gradient of water concentration across the membrane, which is inversely proportional to the concentration of solutes.
What facilitates faster water flow through the membrane?Many cells also have water channel proteins called aquaporins in their plasma membranes, which allow water molecules to pass through the membrane much more quickly than they can diffuse through the phospholipid bilayer.
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4. Some of our best insect fossils are preserved in
a. amber. c. ice.
b. rock. d. asphalt.
Answer and Explanation:
I believe the answer is Amber
Notice that when comparing our amino acid sequence to a fruit fly, we have a difference of 29 amino acids. That number jumps drastically when we compare ours to the thesis monkey, which has difference of 1. Why does this make sense?
Proteins are made up of compounds called amino acids. Proteins and amino acids are the components of living.
What names do proteins and amino acids go by?
Peptides, which are smaller subunits composed of carbon, hydrogen, oxygen, and other compounds, are what are known as amino acids. Proteins, also known as polypeptides, are connected chains of amino acids that can contain tens of thousands of amino acids each.
Amino acids are the byproducts of the digestion or breakdown of proteins. A protein is made up of a long sequence of amino acids that are connected by peptide bonds. In a biological process, the amino group of one amino acid is joined to the carboxyl group of a nearby amino acid, extracting a water molecule in the process.
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how do living systems maintain order must include: entropy, and activation energy .
Answer:
Explanation:
Living systems maintain order through a combination of processes, including the management of entropy and the use of activation energy.
Entropy is a measure of disorder in a system, and it tends to increase over time. However, living systems are able to maintain order by constantly importing energy and materials from their environment and using them to create and maintain complex structures and processes. By constantly working to reduce entropy within their boundaries, living systems are able to maintain a high degree of organization.
Activation energy refers to the amount of energy required to initiate a chemical reaction. Living systems use enzymes to lower the activation energy required for many of the chemical reactions that are necessary for life. Enzymes are specialized proteins that catalyze chemical reactions, and they do so by binding to reactants and orienting them in a way that reduces the amount of energy required to initiate the reaction. This allows living systems to carry out chemical reactions quickly and efficiently, and helps to maintain order by keeping the many chemical processes within cells running smoothly.
Overall, living systems maintain order by constantly importing energy and materials, using enzymes to lower activation energy and carry out chemical reactions, and working to reduce entropy and maintain organization within their boundaries.
The method described for analyzing a crime scene based on maggot activity assumes that outdoor temperatures are in which range A.mild B.chilly C.hot D. Cold
Answer:
The method described for analyzing a crime scene based on maggot activity is known as forensic entomology. In this method, the type and developmental stage of maggots found on a corpse are used to estimate the time of death.
The development rate of maggots is influenced by temperature, which means that the temperature of the environment where the corpse was found is a crucial factor in estimating the time of death.
The range of temperature that is typically used in forensic entomology for maggot activity is between approximately 10°C and 40°C (50°F to 104°F). So, the method can be applied in a wide range of outdoor temperatures, including mild, chilly, hot, and cold, as long as the temperature is within this range.
Therefore, the answer to the question is: A. mild, B. chilly, C. hot, and D. cold are all possible outdoor temperature ranges for the method of analyzing a crime scene based on maggot activity, as long as the temperature falls within the range of approximately 10°C to 40°C (50°F to 104°F).
The method described for analyzing a crime scene based on maggot activity assumes that outdoor temperatures are in the range of C, as maggots are often used in forensic investigations to estimate the time of death, a process called forensic entomology.
What is forensic entomology?Forensic entomology is a branch of forensic science that uses insects and other arthropods to provide clues about crimes. The presence, type, and developmental stage of insects found on a corpse can help estimate the time of death, the location of death, and other important details about the crime. In forensic entomology, maggot activity is often used as an indicator of the time since death. Maggots are the larvae of flies, and they feed on the decomposing tissues of a corpse. The temperature at the crime scene can have a significant impact on the rate of maggot development, which in turn can help estimate the time of death.
Hence, The method described for analyzing a crime scene based on maggot activity assumes that outdoor temperatures are in the range of C, hot,
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by what mechanism does the active transport of na lead to the osmotic flow of water across an epithelium?
By the mechanism of osmosis, the water will move across the epithelium from the low concentration of Na+ ion region to the high concentration of Na+ ion region.
Active transport is a type of transport system in which the molecules moves against the concentration gradient that is the molecules moves from the lower solute concentration region to the higher solute concentration region.
Osmosis refers to the movement of water regarding the concentration of the solution on both sides of the semi-permeable membrane. That is water moves from the less solute concentration side to the more concentrated side.
So in the given situation, Na+ ions move from the low-concentrated side to the high-concentrated side by the active transport mechanism. After this, the water will move towards the region with the high concentration of Na+ ions across the epithelium layer.
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What internal feature do these penguins have that allow them to tolerate the cold temperatures of their environment?
I don't know because this idea the first time I listen
which is the best description of microorganisms?
The best description of a microorganisms is that it is too small to be able to clearly seen through unaided eyes.
The correct option is option A.
Microbes or the microorganisms are basically the minute as well as unicellular organisms which are not visible to the unaided eye. They are also known as microscopic organisms and this is because they can only be seen under a microscope. They make up for about 60% of the living matter on Earth.
The term microbes is basically used to describe a number of different life forms which have different sizes as well as characteristics. A few of such microbes include bacteria, viruses, fungi etc. Microbes can be either useful as well as harmful for human beings and the environment.
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--The given question is incomplete, the complete question is
"A Organisms too small to be seen clearly by the unaided eye
B Organisms too small to be seen clearly with a microscope
C Organisms that have a small impact on the environment
D Organisms found in low abundance in the environment"--
Classify the descriptions based on whether they pertain to thin skin or thick skin.
- Found on the palms of the hands
- Found on the soles of the feet
- Does not contain hair follicles
- Contains all five epidermal strata
- Contains sebaceous glands
- Does not include the stratum lucidum
- Contains hair follicles
- Found over most of the body
The descriptions can be classified based on whether they pertain to thin skin or thick skin.
What is hair follicles?A part of the skin called a hair follicle is where hair is made and develops. It is a tubular epidermal invagination that descends into the dermis. Except for the palms of the hands and the bottoms of the feet, the body is covered in hair follicles.
Found on the palms of the hands-thick skin
Found on the soles of the feet-thick skin
Does not contain hair follicles-thick skin
Contains all five epidermal strata-thick skin
Contains sebaceous glands-thin skin
Does not include the stratum lucidum-thin skin
Contains hair follicles-thin skin
Found over most of the body-thin skin
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isovolumetric relaxation and ventricular filling take place during
Isovolumetric relaxation and ventricular filling take place during diastole, that comprises of four phases.
Between the aortic valve closing and the cessation of the trans-mitral flow is diastole. There are four distinct phases: isovolumic relaxation, fast filling brought on by ventricular suction, minimal filling, called diastasis, and atrial systole.
The aortic and pulmonary valves close, creating the second heart sound, when the ventricular pressures fall below the diastolic aortic and pulmonary pressures (80 mmHg and 10 mmHg, respectively).
Cardiac cycle is the process through which the atria and ventricles alternately contract and relax to pump blood throughout the body. Ventricular diastole, a phase of the cardiac cycle, is when the isovolumetric relaxation and ventricular filling components of the cardiac cycle occur.
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how were animals classified in the earliest classification system?
The earliest classification systems for animals were based on observable Physical characteristics such as morphology, behavior, and habitat.
One of the earliest classification systems was proposed by the Greek Philosopher Aristotle in the 4th century BCE. He divided animals into two main groups: animals with red blood and animals without red blood. The former group included mammals, birds, and some fish, while the latter group included insects, crustaceans, and mollusks.
In the 18th century, Carl Linnaeus developed a more comprehensive Classification system based on physical characteristics such as the Number and arrangement of limbs, type of mouthparts, and the Presence or absence of wings. His system organized animals into groups Based on their similarities and differences, with each group given a Unique Latin name. This system, known as the binomial nomenclature, is Still widely used today.
Overall, the earliest classification systems for animals were largely based on external physical characteristics and did not take into account evolutionary relationships or genetics.
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Substances can move across the plasma membrane in two different ways—actively or passively. This activity will help you determine whether transport mechanisms actively or passively move substances across the membrane. Sort the following types of membrane transport mechanisms into active or passive processes.
--Active Process: Secondary active transport, Primary active transport, Endocytosis, Exocytosis. --Passive Process: Simple diffusion, Facilitated diffusion, Osmosis
The transport mechanisms that actively move substances across the plasma membrane are:
Primary active transport: ActiveSecondary active transport: ActiveEndocytosis: ActiveExocytosis: ActiveThe transport mechanisms that passively move substances across the plasma membrane are :
Simple diffusion: PassiveFacilitated diffusion: PassiveOsmosis: PassiveWhat are transport mechanisms?Transport mechanisms refer to the various ways in which materials, such as nutrients, gases, and waste products, are moved within and between cells, tissues, and organisms.
There are several transport mechanisms that are important for the functioning of living organisms. These include:
DiffusionFacilitated diffusionActive transportEndocytosis and exocytosisCirculatory systemsEach of these transport mechanisms plays a crucial role in maintaining the proper functioning of cells and organisms, allowing them to take in essential nutrients, remove waste products, and communicate with each other.
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how is the role of oxygen and cellular respiration like the role of nad¬ in fermentation?
Glycolysis, with one or two additional processes added at the end, is the only energy extraction mechanism used in fermentation.
Both cellular respiration and fermentation have a similar beginning. Nevertheless, the electron transport chain is not active during fermentation, and the pyruvate produced during glycolysis is not carried out through oxidation and the citric acid cycle. As the electron transport chain isn't working, NADH/produced during glycolysis cannot transfer its electrons there to transform back into NAD+.
Hence, the additional processes during fermentation serve to renew the electron carrier +NAD +from the NADH generated during glycolysis. By allowing NADH to exchange electrons with an organic molecule, the additional processes achieve this. This decrease ensures a constant flow of glucose, which enables glycolysis to continue.
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What is the secondary order of protein structure?
The secondary structure of a protein refers to the local folding patterns that result from hydrogen bonding between the peptide backbone atoms.
The two main types of secondary structure are alpha helices and beta sheets. The secondary structure of a protein is the second level of organization in the protein structure hierarchy, following the primary structure (the linear sequence of amino acids).
The primary structure determines the sequence of the amino acids that make up the protein, while the secondary structure describes the local spatial arrangement of the backbone atoms.
Other structures such as tertiary and quaternary structures are higher levels of organization in the protein structure hierarchy, describing the folding and arrangement of the entire protein molecule.
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Review the anatomical organization of skeletal muscle. Correctly label each of the structures. 1.Muscle fiber. 2.Endomysium. 3.Tendon. 4.Fascicle. 5.Blood vessel 6.Perimysium. 7.Epimysium.
1. Muscle fiber
2. Endomysium
3. Tendon
4. Fascicle
5. Blood vessel
6. Perimysium
7. Epimysium
What is Epimysium?
Epimysium is a layer of dense fibrous connective tissue that covers the entire muscle. It is made up of collagen fibers that are arranged in a parallel fashion. The epimysium also helps to anchor the muscle to tendons and other structures, while also providing a protective sheath that helps to reduce friction between the muscle and surrounding structures. Its fibers also act as a barrier to prevent the spread of infection. The epimysium also helps to provide the muscle with better blood supply and nutrient delivery.
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what do hand bones look like
The bones in the human hand have various shapes and sizes, depending on their location and function. Generally, the bones in the hand are long, slender, and curved to some extent to allow for flexibility and movement.
The metacarpal bones are long bones that are wider at their ends and narrower in the middle. They have a slightly curved shape that follows the natural arch of the hand.
The phalanges, or finger bones, are smaller and more delicate than the metacarpal bones. Each finger has three phalanges, except for the thumb which has two. The phalanges have a distinctive long and slender shape, with a rounded head at one end that articulates with the bones above it, and a narrower base at the other end that connects to the next phalanx.
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Discussion: Diversity of Life, Part - 2
Graded Discussion
Discussion Topic
Imagine that certain laws of physics could be ignored and you were able to travel vast
distances in moments. Now imagine that you traveled to an Earth-like planet located
light-years away that is known to support life. Think about what you've learned in this
unit and make an argument for what you think would be the dominant type of life form
on this planet. Consider whether a notochord is required for an organism to manipulate
its environment and become a dominant creature.
5 F
Assuming that we're suitable to travel vast distances in moments and that we've discovered an Earth- suchlike earth located light- times down that supports life.
it's delicate to prognosticate what the dominant type of life form on this earth would be without further information about the earth's terrain and the conditions that live there. still, we can make some general prognostications grounded on what we know about the elaboration of life on Earth. On Earth, the most dominant type of life form is presently the multicellular organism.
Multicellular organisms evolved from single- celled organisms through a process called symbiogenesis, in which multiple cells came together to form a collaborative unit. The foremost multicellular organisms on Earth didn't have notochords, which are structures set up in the phylum Chordata( which includes invertebrates) that give support and allow for movement. rather, these early multicellular organisms had simpler structures, similar as cell walls, that handed support and allowed for limited movement.
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what is normal temperature range for adults
The normal body temperature in adults can somewhere range between 97° F or 36.1° C and 99° F or 37.2° C.
A fever is usually defined as basically a rise which occurs in the body temperature and it is usually considered as a sign of some type of infection. The fever in itself is usually harmless and we can say it is probably helpful for the body and most probably does not need a treatment.
The average temperature of the human body is 98.6° F or we can say 37° C. But the normal body temperature can basically range from 97° F (which is 36.1° C) and 99° F (which is 37.2 C) or even more. The temperature of our body can possibly vary depending on how active we are and also our age.
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