For cells without the hyperactive adenylate kinase mutation, expect the EC to change Option D) EC would increase.
The EC would increase. for the normal cell, [ADP] would decrease and [ATP] would increase. From the definition of EC this would lead to a ratio closer to one, greater than EC of mutant
Protein function is a balancing act between activity and stability. However, it has been challenging to evaluate the significance of stability-activity trade-offs for protein evolution and their impact on organismal fitness. Previously, we connected organismal survival at increasing temperatures to adaptive modifications to a single protein sequence in a thermophile via allelic substitution of an important gene, adenylate kinase (adk). The in vivo continuous evolution of the temperature-sensitive thermophile has revealed that the initial step towards higher organismal fitness is the mutation of glutamine-199 to arginine in the mesophilic enzyme.
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When a cell needs to make a protein, special parts within the nucleus read the DNA and use that information to produce messages in the form of ___________
When a cell needs to make a protein, special parts within the nucleus read the DNA and use that information to produce messages in the form of messenger RNA (mRNA). The mRNA molecule carries the genetic code from the DNA to the ribosomes, which are the cellular structures responsible for protein synthesis. The ribosomes use the information contained in the mRNA to build the protein molecule.
Determine the highest level of protein structure described by the following. Sort each item into the appropriate bin.
The arrangement of many polypeptide chains in a protein complex is known as quaternary structure. The quaternary structure of a protein is the most complex level of structure.
An illustration of a quaternary structure.The quaternary structure is an arrangement that some proteins and other substances form (Figure 14). As two instances: In addition to the actin microfilament, which is made up of thousands of actin molecules, Haemoglobin is an assembly of four globular proteins.
The combination of many protein chains or subunits into a densely packed structure is known as the quaternary structure of a protein. The primary, secondary, and tertiary structures are unique to each subunit. Van der Waals interactions between nonpolar side chains and hydrogen bonds hold the subunits together.
The most complex level of organisation that is still regarded as a single molecule is the quaternary structure found in proteins. Any protein with two or more peptide chains forming subunits is said to have quaternary structure. The subunits are typically ordered symmetrically and can be unique or identical.
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Identify the shape of the bacteria
It is rod shaped bacteria
What are rods, bacilli, and cocci?
Although bacteria can take on a wide range of shapes, the most often researched species tend to be either spherical (named cocci, singular coccus), or cylindrical (called rods or bacilli) (singular bacillus). Rods and cocci are actually the extremes of a spectrum.
Similar to the streamlined body of a fish, a boat, or an airplane, a rod-shaped cell has a body that would be ideal for swimming. The frictional resistance will be larger for a spherical body. The majority of the flagellated motile bacteria are rod-shaped, which lends support to this concept. It contains a large number of rod-shaped bacteria, including Shigella, Citrobacter, Salmonella, Klebsiella, and Escherichia coli.
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Muscles are not likely to tear from their bones because:_______
Muscles are unlikely to break off their bones because they are held together by connective tissues called tendons.
Tendons are capable of withstanding high levels of tension since they are strong and flexible. They serve as a connection between the muscle and the bone, enabling movement without the muscle separating from the bone.
In order to prevent the muscle from tearing under the strain of movement, the tendon's flexibility also aids to cushion the muscle.
Additionally, the tendon has the capacity to absorb some of the force generated by the contraction of the muscle, which aids in lowering the force applied.
Finally, ligaments hold the muscles and bones together and offer joint stability. To maintain the muscles linked to the bones and stop them from separating, the tendons, ligaments, and muscles all work together.
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the central part of an atom in which protons and neutrons are held together called___
Ernest Rutherford discovered in 1911 that every atom has a nucleus in its centre. Electrically charged protons and electrically neutral neutrons make up atomic nuclei. The strongest fundamental force known to science, often known as the strong force, holds these things together.
The electron cloud contributes very little to the atom's mass, which is almost entirely in the nucleus. The nuclear force brings protons and neutrons together to create a nucleus. The diameter of the nucleus ranges from roughly 11.7 fm for uranium to 1.70 fm (1.701015 m for hydrogen, the diameter of a single proton). [8] By a factor of around 26,634 (the atomic radius of uranium), these dimensions are substantially less than the diameter of the atom itself (nucleus + electron cloud).
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a urease test is used to identify mycobacterium tuberculosis because
Urease test is used to identify mycobacterium tuberculosis because M.tuberculosis produces urease, thus indicating that a person has the bacteria that can cause tuberculosis.
Tuberculosis is a serious infectious bacterial disease that mainly affects the lungs.The bacteria that cause TB are spread when an infected person coughs or sneezes. Most people infected with the bacteria that cause tuberculosis don't have symptoms. When symptoms do occur, they usually include a cough, weight loss, night sweats and fever.
Mycobacterium tuberculosis belongs to the family of Mycobacteriaceae and is the causative agent of tuberculosis. It is a pathogenic bacteria. M.tuberculosis secretes a range of effector proteins to confuse the host immune system, thus promoting its intracellular survival and shaping its lifestyle to persist in granulomas during the latency phase of infection.
Urease breath test comprises the basis of developing a similar breath test for TB. Labeled urea is degraded by H. pylori in the stomach whereby the labeled CO2 produced is then exhaled and detected in the lungs. The detection of the labeled CO2 implies infection with the bacteria.
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which of the following statements is/are true about centralization and cephalization? a. all animals exhibiting cephalization exhibit centralization b. all animals exhibiting centralization exhibit cephalization c. a
The statement "d. None of the above" is true regarding centralization and cephalization.
In animal anatomy and evolution, centralization and cephalization are related but distinct concepts. The concentration of the nervous system into a central nervous system (CNS) composed of the brain and spinal cord is referred to as centralization. This enables quick and coordinated responses to stimuli. A decentralised nervous system, on the other hand, is distributed throughout the body and lacks a distinct CNS.
Cephalization, on the other hand, refers to the development of a distinct head region with sensory and feeding appendages. Cephalization is frequently associated with centralization because the development of a brain and sensory organs in the head region allows for more efficient sensory processing and movement coordination.
While centralization and cephalization are frequently found in animals, they are not always associated. Some animals, such as jellyfish, have a centralised nervous system but no distinct head region, whereas others have a distinct head region but no centralised nervous system (e.g., flatworms).
As a result, neither statement (a) nor statement (b) is entirely correct, and the correct response is (d) None of the above.
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how do master regulatory genes function in cell differentiation? view available hint(s)for part a how do master regulatory genes function in cell differentiation? they may produce proteins that stimulate production of more of the master regulatory gene. they produce proteins that act as transcription factors to produce proteins specific to the function of the particular cell type. the transcription factors they produce coordinately control related genes. they are often capable of changing some fully differentiated cells of different types into their particular cell type. all of the listed responses are correct.
The master regulatory genes function in cell differentiation in a way that they produce proteins that act as transcription factors to produce proteins specific to the function of the particular cell type.
Master regulatory genes play a critical role in the process of cell differentiation by regulating the expression of other genes involved in the development of specific cell types. Specifically, they produce proteins that act as transcription factors, which bind to specific DNA sequences and stimulate the transcription of genes that are essential for the development of a particular cell type. This process of gene regulation helps to coordinate the expression of genes that are required for a specific cell type to function properly. In addition, some master regulatory genes are capable of converting fully differentiated cells of different types into their particular cell type, a process known as cell reprogramming. Overall, the role of master regulatory genes in cell differentiation is crucial for the development and maintenance of different cell types in the body.
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how to damage guardian shields to collect dropped micro chips?
A lipid bilayer is a perfect structure in cell membranes due to several additional features besides its capacity for self-sealing. One of these that is most significant is fluidity, which is essential to numerous membrane processes.
Important elements of cell membranes are phospholipid bilayers. A barrier preventing molecules and ions from entering and leaving the cell is the lipid bilayer. The ability to selectively permit the passage of specific molecules into or out of cells, however, is a crucial function of a cell membrane. The cell wall let any molecule to pass through or leave the cell by screening them if indeed the cell membrane becomes broken. The cell will eventually die as a result of losing its ability to operate.
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All living cells, both prokaryotic and eukaryotic, have the following cell structures: plasma membrane, cytosol, ribosomes, and at least one chromosome. Choose any one of these. Describe its basic structure (including molecular composition) as well as the function. Explain why a cell could not exist without the function(s) performed by this cell structure.
Prokaryotic cells and eukaryotic cells are the two fundamental types of cells. The primary distinction between eukaryotic and prokaryotic cells is the presence of a nucleus in eukaryotic cells.
The nucleus stores DNA, the genetic material found in cells. The nucleus is surrounded by a membrane. Prokaryotic cells do not have nuclei. Their DNA, on the other hand, is floating around inside the cell. Prokaryotes are organisms that have prokaryotic cells.
All prokaryotes are single-celled (unicellular) organisms. Bacteria and archaea are the only prokaryotes. Eukaryotes are organisms that have eukaryotic cells. Protists, fungi, plants, and animals are all examples of eukaryotes. Eukaryotes are multicellular organisms. Eukaryotes can only have one cell. Bacterial and eukaryotic cell architectures are similar.
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the reason that metabolizing cells are small in size is because
The reason that metabolizing cells are small in size is because the surface area of a cell must be able to accomplish nutrient/waste exchange.
Because cells are so small, they may maximise their surface area to volume ratio.
Smaller cells have a higher ratio, allowing more molecules and ions to pass through the cell membrane per unit of cytoplasmic volume.
Cells are so tiny because they need to be able to get nutrients in and waste out as rapidly as possible.
Their unique surface area in relation to the volume of cytoplasm enables them to control the exchange of certain molecules within the system.
As a result, metabolising cells are modest in size because the surface area of a cell must be capable of nutrient/waste exchange.
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Complete Question is:
The reason that metabolizing cells are small in size is because...
- cells influence nearby cells to divide.
- the surface area of a cell must be able to accomplish nutrient/waste exchange.
- cells need to dissipate heat effectively.
- mitosis occurs before cells reach a certain size.
- cells need to communicate with adjacent cells.
which structure is highlighted marginal artery right circumflex artery right coronary artery left anterior descending artery left coronary artery
artery on the left side. A branch of the left circumflex artery, it can be discovered at the left AV sulcus. It heads for the top of the heart. the artery on the left that descends anteriorly.
Branches emerge from the left major coronary: The left coronary artery divides into the left anterior descending artery, which provides blood to the front of the left side of the heart. The left coronary artery's left circumflex branch surrounds the heart muscle. The left major coronary artery and the right coronary artery (RCA) are the two primary coronary arteries (LMCA). The aorta's root is the source of both of them. The right atrium and right ventricle are the primary recipients of blood from the RCA, which exits the anterior ascending aorta. Your left main coronary artery has two branches, the left anterior descending (LAD) artery being one of them. Anterior refers to an artery that feeds blood to your heart's front chambers. It is your heart's main source of oxygenated blood for the lower left ventricle, which pumps blood throughout your body.
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What are the names of the cells in the eye that are specialized to detect light intensity?
options:
Papillae
Tympanic membranes
Rods
Cones
Rods are the name for the eye's unique light-sensitivity cells.
Rods are one of two types of photoreceptor cells in the retina of the eye, the other being cones. Rods are much more sensitive to light than cones and are responsible for vision in low-light conditions. They contain a pigment called rhodopsin, which undergoes a chemical change in response to light, triggering a signal that is transmitted to the brain through the optic nerve. The human retina contains about 120 million rods, concentrated mainly in the peripheral parts of the retina. In addition to detecting light intensity, rods also play a role in detecting movement and providing spatial information.
Option C is the proper response, thus.
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what types of proteins are found in the cytoplasmic membrane? what types of planar lipids? what is the function of each of these components?
transmembrane, embedded, and membrane-bound planar. lipids are sterols and hopanoids.
Transmembrane proteins, also known as integral proteins, are found embedded in the phospholipid bilayer. These essential proteins frequently act as pathways for chemicals to cross cell membranes. In the absence of non-biological solvents, mixes of pure lipids are used to create planar lipid bilayer membranes. The substantial specific capacitance of the solventless bilayers (586-957 nF/cm2), which is equivalent to that of cell membranes but far higher than that of traditional lipid/decane bilayers, distinguishes them from other types of bilayers. Hopanoids can intercalate into phospholipid bilayers and alter the fluidity of membranes by interacting with their intricate lipid components, actions that are thought to be very similar to those of sterols in the membranes of animals and plants.
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the fluid mosaic model of membrane structure suggests that membranes
a. Consist of a single layer of phospolipids and proteins
b. Consist of a phospolipids bilayer composed of a variety of fatty acids
c. Consist of protein molecules embendded in a dynamic bilayer of phospholipids
d. Consist of a phospholipid bilayer between two layers of hydrophilic proteins
(c) Consist of protein molecules embedded in a dynamic bilayer of phospholipids. According to the fluid mosaic theory, the cell membrane is made up of several continually moving components, including phospholipids, cholesterol.
What is fluid mosaic theory?Different facts on the composition of functional cell membranes are explained by the fluid mosaic hypothesis. According to this biological model, protein molecules are embedded within a lipid bilayer, which is a two molecules thick layer made mostly of amphipathic phospholipids. The membrane's fluidity and elasticity are provided by the phospholipid bilayer. The cell membrane also contains trace amounts of carbohydrates. The cell membrane is portrayed in the biological model as a two-dimensional liquid that prevents the lateral diffusion of membrane components, which was developed in 1972 by Seymour Jonathan Singer and Garth L. Nicolson.The fluid mosaic model accounts for the connection of membrane proteins with the membranes as well as changes in the structure and behaviour of cell membranes at various temperatures.
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Which of the active transport types employs diffusion?
Symport
Uniport
Antiport
Uniport and Antiport
All types of active transport make use of some form of diffusion.
Diffusion is a component of all active transport modes. is a form of active transportation that uses diffusion.
Cells depend on diffusion to acquire the nutrients they need to grow and obtain energy as well as to rid themselves of waste materials. Examples of the materials needed by cells and the waste products they produce are shown in the table below.
The terms "concentration gradient," "pressure gradient," and "temperature gradient" are used to describe changes in concentration, pressure, and temperature over a given distance. The Latin word diffundere, which means "to spread out," is the root of the English word diffusion.
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The fluid mosaic model of the membrane proposed that membranes:
A. Consist of a single layer of phospholipids and proteins.
B. Consist of a phospholipid bilayer composed of a variety of fatty acids.
C. Consist of protein molecules embedded in a dynamic bilayer of phospholipids.
D. Consist of a phospholipid bilayer between two layers of hydrophilic proteins.
The correct answer is option C. According to the fluid mosaic model of the membrane, proteins are encapsulated in a dynamic bilayer of phospholipids in membranes.
S.J. Singer and G.L. Nicolson introduced this hypothesis in 1972, claiming that the cell membrane is made up of a phospholipid bilayer with proteins scattered all over it.
The phospholipid bilayer is continually in flux as a result of the diverse external and intracellular stimuli that influence it, and the proteins create a mosaic of different configurations.
The proteins may interact with the polar head groups of the bilayer and the nonpolar core of the membrane because they are amphipathic, or having both hydrophilic and hydrophobic areas.
The proteins are crucial for signal transduction, molecular transport, and cell-to-cell recognition. The semi-permeable phospholipid bilayer acts as a barrier to control the flow of chemicals into and out of the cell.
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Which tissues has cells residing in lacunae?
Hyaline Cartilage tissues have cells that live in lacunae, which corresponds to the query.
What materials make up lacunae?Cells ,The chondrocytes in developing cartilage can split, and the offspring cells stick together in clusters to create a "nest" of 2-4 cells. They sit in spaces known as lacunae, which are matrix-enclosed chambers. Lacunae are little lakes or pits.
Osteoblasts are there in lacunae?The osteoid is directly above where the osteoblasts are positioned (newly formed bone matrix). Lacunae are home to osteoblasts. The lacunae known as Howship's lacunae are occasionally observed to contain enormous pleomorphic osteocytes, which break down bone. These are easily located in the growth plate's ossification zone.
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oxytocin is produced by neurons of the supraoptic nucleus in the hypothalamus, but is released into the bloodstream where? group of answer choices
Oxytocin is a hormone produced by neurons located in the supraoptic nucleus of the hypothalamus, a region of the brain that plays a crucial role in regulating a variety of physiological and behavioral processes.
Once produced, oxytocin is released into the bloodstream via the posterior pituitary gland, a small structure located at the base of the brain. From there, oxytocin travels to various parts of the body and exerts its effects by binding to specific receptors in target tissues, such as the uterus and mammary glands.
Oxytocin is involved in a range of physiological processes, including labor and delivery, lactation, social bonding, and stress regulation.
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The field of conservation biology
a. tries to increase speciation events in order to increase biodiversity
O b. tries to conserve every species, everywhere
O c. developed in response to government intervention
O d. was initially viewed as too measurement-oriented, looking at details and not at the big
Oe. attempts to integrate an understanding of evolution, ecology, and extinction
The field of conservation biology attempts to integrate an understanding of evolution, ecology, and extinction. The correct option is E.
What is conservational biology?By examining how evolution, ecology, and extinction interact, conservation biology aims to comprehend and safeguard biodiversity.
This includes researching the causes of species extinction, such as habitat loss, excessive exploitation, and climate change, and creating plans to lessen their effects.
It is also not seen as being overly measurement-focused, focusing on the little print rather than the broad picture.
Actually, conservation biology frequently necessitates a multidisciplinary and integrated approach that takes into account both the biological and socioeconomic aspects that have an impact on species and ecosystems.
Thus, the correct option is E.
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Which organelle is known as the power house of the cell? Why?
The organelle known as the "powerhouse of the cell" is the mitochondrion. This nickname is attributed to the organelle's primary function, which is to produce ATP
Mitochondria are found in almost all eukaryotic cells and are typically most abundant in cells with high energy demands, such as muscle cells. They are double-membrane organelles with an outer membrane and an inner membrane that is highly folded, forming structures called cristae. The inner membrane contains enzymes that are involved in the electron transport chain, a process that generates a proton gradient that is used to produce ATP.
In addition to energy production, mitochondria are also involved in other important cellular processes, such as calcium signaling, cell differentiation, and apoptosis (programmed cell death). Mitochondrial dysfunction is associated with a wide range of diseases, including neurodegenerative disorders, cardiovascular disease, and metabolic disorders.
In summary, mitochondria are called the "powerhouse of the cell" because they are responsible for generating ATP, the molecule that provides energy for cellular processes.
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each myofibril contains many , each extending from one z line to the next.
Myofibrils are structures within a muscle cell that contain the contractile proteins actin and myosin.
What is structure?Structure is the arrangement of elements within a system or entity. It is the underlying framework that holds everything together. The concept of structure is used in many fields, from architecture to biology to engineering. In architecture, structure refers to the physical components of a building, such as walls, floors, and roofs.
They are responsible for muscle contraction. Each myofibril is made up of many sarcomeres, which are the basic structural and functional unit of myofibrils. Sarcomeres are arranged in a repeating pattern along the myofibril and consist of thin filaments of the protein actin and thick filaments of the protein myosin. They are bounded by two Z-lines, which are bands of proteins that join the sarcomeres together. Each sarcomere extends from one Z-line to the next, with the actin and myosin filaments overlapping in the middle.
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I need help with the last two boxes.
Answer:
Explanation:
alcholic fermentation is a form of anaerobic respiration and yeasts use the process to produce ethanol (alcohol). Lactic acidosis fermentation is another form of anaerobic respiration and it produces lactid acid.
which organelle controls what goes in and out of the cell?
you examine a tissue sample under the microscope and discover that the tissue appears to be striated muscle. what can be concluded from this observation?
If a tissue sample appears to be striated muscle when examined under the microscope, several conclusions can be drawn from this observation:Striated muscle tissue and so on.
Striated muscle tissue is a type of muscle tissue that is characterized by its striped or striated appearance under the microscope. This striping is due to the arrangement of actin and myosin filaments within the muscle fibers. Striated muscle tissue is found in several locations in the body, including the skeletal muscles that move the body, the cardiac muscle of the heart, and the smooth muscle of some organs. Skeletal muscle is the only type of muscle tissue that can be consciously controlled, so if the tissue sample is skeletal muscle, this suggests that it is part of the musculoskeletal system that allows for voluntary movement. Cardiac muscle tissue is found exclusively in the heart, and its striated appearance is an indication that it is adapted for continuous, rhythmic contraction that is essential for maintaining a steady blood flow throughout the body. Smooth muscle tissue, although also containing actin and myosin filaments, appears non-striated under the microscope and is found in the walls of many organs such as the digestive tract, bladder, and blood vessels, where it plays a role in involuntary movements such as peristalsis and vasoconstriction.
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what defect causes pituitary dwarfism? view available hint(s)for part a what defect causes pituitary dwarfism? neurodegeneration one defective allele lack of growth hormone lack of a pituitary gland
The pituitary gland is destroyed by a malignant, degenerative, or aberrant process, which results in pituitary dwarfism. As a result, the production of additional pituitary hormones such growth hormone (GH), thyroid-stimulating hormone (TSH), adrenocorticotropic hormone (ACTH), luteinizing hormone (LH), and follicle-stimulating hormone (FSH) may also decrease.
The most common and easily recognisable form of dwarfism in humans is achondroplasia, a congenital disorder in which the limbs are short (in around 70% of cases). In most other situations, a shortage of growth hormone is to blame. The type of treatment depends on the underlying cause. Patients with hereditary disorders occasionally need physical therapy or surgery. Hormone imbalances can also be treated with growth hormone therapy prior to the child's growth plates merging. Custom-made furniture is regularly used as personal accommodations by people of modest size. Many support groups provide services to assist people in coping with any potential discrimination they may experience.
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studies done by buchner showed that ground-up yeast cells were able to convert sugar to alcohol. the components of the mixture that were responsible for this transformation were
Enzymes invertase, zymase and diastase were the particular enzymes in the combination that were responsible for this transformation, according to Buchner's investigations, which demonstrated that ground-up yeast cells were capable of converting sugar to alcohol.
Zymase and diastase further break down the sugar molecules into alcohol and carbon dioxide after invertase has converted them into smaller molecules.
The DNA molecules in the yeast cells make the enzymes, which are a sort of protein. Although the combination also contains lipids and carbs, neither are necessary for the transformation of sugar into alcohol.
While carbohydrates are essential for the creation of cell structure and membranes, lipids are primarily employed as an energy source.
Complete Question:
Studies done by Buchner showed that ground-up yeast cells were able to convert sugar to alcohol. The components of the mixture that were responsible for this transformation were
DNA molecules.
enzymes.
lipids.
carbohydrates.
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if you are outside in the cold, your body temperature may drop causing you to shiver. this is an example of
When your body produces less heat than it loses, hypothermia sets in. Cold weather or exposure to cold water are the most frequent causes of hypothermia.
The brain's temperature-controlling region, the hypothalamus, stimulates the body's natural heating and cooling processes in an effort to increase body temperature. Shivering is a defensive reaction to cold temperature exposure to generate heat through muscle activity. Your brain receives signals from microscopic sensors in your skin telling it to warm up when you feel cold. Then, your brain instructs your muscles to move by sending signals to the nerves in every part of your body. When exposed to cold conditions, your body starts to lose heat more quickly than it can generate it. After prolonged exposure to the cold, your body will eventually run out of energy. Hypothermia, or unusually low body temperature, is the outcome.
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what feature is found in both glycolipids and glycoproteins?
Carbohydrate chains (Glycans) are found in both glycolipids and glycoproteins. Glyco (carbohydrate) portion of these molecules protrude from cell membrane and form hydrogen bonds with water molecules surrounding cell, thereby anchoring and stabilizing the cell.
What are important sites for the formation of glycoproteins and glycolipids?The Golgi apparatus (body) is a key site for the formation of glycoproteins and glycolipids in eukaryotic cells.
What do glycoproteins and glycolipids have in common?Glycolipids, like glycoproteins, are only found on the extracellular surface. Glycolipids are synthesized similarly to glycoproteins. Certain enzymes catalyze the initial glycosylation of phospholipids and polypeptides followed by the terminal glycosylation reaction.
What is composed of glycolipids and glycoproteins?The glycocalyx is composed of highly charged glycolipids and glycoproteins that form a gel-like mesh attached to the outer surface of the plasma membrane. It functions not only as a mediator of cell-cell interactions, but also as a barrier.
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what is ciliary body?
