Answer:
Produce toxins (poisons)
Become too dense
Use up the oxygen in the water
Release harmful gases
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, ExocytosisPassive Process: Simple diffusion, Facilitated diffusion, Osmosis
Active Process: Secondary active transport, Primary active transport, Endocytosis, Exocytosis
Passive Process: Simple diffusion, Facilitated diffusion, Osmosis
What is an active and passive process?In biology, active and passive processes refer to the different ways in which substances can move across a cell membrane. Active processes require the cell to use energy, usually in the form of ATP (adenosine triphosphate), to move substances against a concentration gradient, from an area of low concentration to an area of high concentration.
Passive processes, on the other hand, do not require the cell to use energy. Instead, substances move across the membrane down their concentration gradient, from an area of high concentration to an area of low concentration.
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Is a wedge tailed eage a tertiary consumer?
Wedge tailed eagle. A carnivore (tertiary consumer) but also a scavenger. This is the largest bird of prey in Australia. The apex predator in this food web.
What is scavanger?
Around the world, several animals that scavenge experience persecution. [Reference needed] Particularly vulnerable to human threats and harassment are vultures. The veterinary medication Diclofenac caused at least a 95% reduction of Gyps vultures in Asia before it was outlawed by regional governments in 2006. Due to the expanding human population, overhunting of vulture food supplies, modifications in cattle husbandry, and habitat loss, vulture species have declined in West Africa. The practise of poisoning some predators to enhance the quantity of game animals is still widespread in European hunting and causes poisoning in vultures when they eat the poisoned predators' carcasses.To know more about scavanger, click the link given below:
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What are the 7 parts of a tree?
The canopy, heartwood, cambium, xylem, phloem, bark, and roots comprise a tree. Trees are made up of three major parts: crowns (canopies), trunks, and bases.
Each part serves a specific purpose in maintaining the tree healthy and growing. A tree has five major parts: roots, crown, leaves, limbs, and trunk. The roots are the unseen parts of the tree that develop underground. Trees have numerous bases.
Typically, the number of roots equals the size of the entire tree visible above earth. Plants are made up of six fundamental components: roots, stems, leaves, flowers, fruits, and seeds. Make a diagram of your plants, labelling each component. It absorbs water and minerals.
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what is the first change to occur in response to a threshold stimulus?
The first change to occur in response to a threshold stimulus depends on the type of stimulus and the system or organ involved.
In general, a threshold stimulus is the minimum amount of stimulation required to elicit a response. When this threshold is reached, the system or organ will respond with an action potential or a change in function.
For example, in a neuron, the first change to occur in response to a threshold stimulus is the opening of voltage-gated ion channels, which allows the influx of sodium ions into the cell and triggers the depolarization of the cell membrane. This depolarization generates an action potential, which is the electrical signal that travels along the neuron's axon.
In a muscle cell, the first change to occur in response to a threshold stimulus is the release of calcium ions from the sarcoplasmic reticulum. The calcium ions then bind to troponin, which causes a conformational change in the muscle fibers, leading to muscle contraction.
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Describe surface tension in a group of bonded water molecules
Answer:
surface tension in a group of bonded water molecules. This results in stronger bond between those molecules that actually do come in contact with one another, and a layer of strongly bonded water.
Explanation:
Why is skin an organ?
Skin is considered as the largest organ of the body It protects from external factors and also contains tissues and membranes.
Skin is known as an organ because it has several types of tissues and membranes that covers the entire body. Also skin is considered as the largest organ of the body which includes other identical organs and skin derivatives that includes hair, nails, glands, and specialized nerve endings.
In many cases skin also plays key role in the process of excretion by producing sweat from the sweat glands. Sweating helps in elimination of excess water and salts, also urea which is byproduct of protein catabolism.
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when can epigenetic interactions impact development?
Epigenetic interaction can impact development when it occurs before birth.
Epigenetic changes begin before you are born. All your cells have the same genes but look and act differently. As you grow and develop, epigenetics helps determine which function a cell will have, for example, whether it will become a heart cell, nerve cell, or skin cell. The epigenetic changes with age. The epigenetic before birth is not the same as the epigenetic during childhood or adulthood. The epigenetic changes do not remain the same throughout life. Some epigenetic changes are added and some are removed in response to the environmental conditions. The epigenetic of a pregnant mother can change the epigenetic of the unborn child.
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what cellular structures do eukaryotic cells contain but prokaryotic cells lack
Answer:
prokaryotic cells lack the nuclear membrane
abnormal growth of tissue that can be cancerous or benign
An abnormal growth of tissue that can be cancerous or benign is called a tumor.
Tumors can develop in any part of the body and can be caused by a variety of factors such as genetic mutations, exposure to environmental toxins, or viral infections.
Benign tumors are non-cancerous growths that does not spread to the other parts of the body. They are usually enclosed within a membrane and do not invade nearby tissues or organs. However, they can still cause problems if they grow large enough to put pressure on surrounding tissues or organs.
On the other hand, cancerous tumors, also known as malignant tumors, are growths that can invade nearby tissues and organs and spread to other parts of the body through the bloodstream or lymphatic system. Cancerous tumors can be life-threatening if they are not detected and treated early.
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during which phase does the nuclear membrane reform around the chromosomes?
a. telophase I and II
b. late prophase I
c. telophase I
d. telophase II
The nuclear membrane reforms around the chromosomes during telophase I and telophase II of meiosis, the correct option is (a).
During telophase I, the nuclear membrane reforms around the two sets of chromosomes that have been separated by the spindle fibers during anaphase I. This forms two new nuclei, each with a haploid set of chromosomes. During telophase II, the nuclear membrane reforms around the chromosomes that have been separated by the spindle fibers during anaphase II. This results in four new nuclei, each with a haploid set of chromosomes. Overall, the reformation of the nuclear membrane during telophase marks the end of each meiotic division and is an important step in the process of creating genetically diverse haploid cells.
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what general role do proteasomes play in the cell?
Proteasomes destroy unwanted or damaged proteins through a process known as proteolysis.
Proteasomes are a key mechanism by which cells control the concentration of specific proteins and degrade protein molecules. A small protein is called ubiquitin tags proteins for degradation. Ubiquitin ligases are enzymes that catalyze the tagging reaction.
When a protein is tagged with a single ligase molecule, other ligases respond by attaching additional ubiquitin molecules. As a result, the proteasome binds to the polyubiquitin chain, allowing it to debase the tagged protein. The degradation process produces peptides ranging in length from seven to eight amino acids, which can then be further diminished into shorter sequences of amino acids and used in the synthesis of new proteins.
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True or False?
A transcription factor should have at least two DNA binding domains and one activation domain in order to become functionally active
It is false that A transcription factor should have at least two DNA binding domains and one activation domain in order to become functionally active.
What is transcription factor?
A transcription factor is a protein that, by binding to a particular DNA sequence, regulates the pace at which genetic information is transferred from DNA to messenger RNA. Proteins called transcription factors help turn certain genes "on" or "off" by attaching to surrounding DNA. A gene's transcription is increased by transcription factors that serve as activators. Repressors lessen transcription.
Therefore, transcription factor just need to have a DNA to help bind domains.
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orrectly label the components of the respiratory system. Nostril Posterior nasal aperture Epiglottis Nasal cavity Larynx Hard palate Pharynx
A collection of stars, dust, and gas bound together by gravity is...
a
Galaxy
b
Solar System
c
Universe
Answer:
A. Galaxy
Explanation:
A galaxy is a giant, spinning object made of gas, dust, and stars held together by gravity. Galaxies come in different shapes and sizes and can contain billions of stars. Most occur in groups that are also held together by gravity.
how many arteries of the body?
Yet, there are more than 20 major arteries in the body, and these arteries subsequently divide into countless smaller arterioles and capillaries. Blood is transported throughout the body by this enormous network.
Each artery has three layers, the innermost of which is smooth. In the human body, there are roughly 20 major arteries. Each artery is composed of three layers: inflexible, thicker, and more muscular tissue. It is bordered with smooth tissue and is separated into three arteries.
Your heart receives its blood from channels called coronary arteries. At the aorta's base, they diverge. the left circumflex artery, the left anterior descending, the left major coronary, and the right coronary artery.
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What are the 3 main veins of the arm?
What type of cells make up the cutaneous membrane?
what is the average respiration rate, in breaths per minute, for cattle? A. 15-40 B. 50 - 90 C. 100-140
The average respiration rate for cattle is 15-40 breaths per minute. So the correct option is Option A.
We can assess the respiration rate of the cattle by watching it's ribs. Then we gave to count the number of times they move in and out in respiration in 15 seconds and we can get the number by multiplication with 4. The respiratory rate of the cattle may vary with the ambient temperature and if the cattle is in stressed condition. But the adult cattle's respiratory rate should be between 26 and 50 breaths per minute.
They have a heart rate of 48 and 84 beats per minute.
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If you subtract the residual volume from the total lung capacity, you get the ______
how many rubp are used in one turn in calvin cycle? A. 1 B. 2 C. 3
Three RuBP (ribulose-1,5-bisphosphate) molecules are used in one turn of the Calvin cycle. (option c). The Calvin cycle is a set of biochemical reactions that occur in the stroma of chloroplasts in photosynthetic organisms.
The cycle involves the fixation of carbon dioxide and the production of carbohydrates using the energy of ATP and NADPH produced in light-dependent reactions. The first step of the Calvin cycle involves the reaction of three molecules of CO2 with three molecules of RuBP, catalyzed by the enzyme Rubisco.
This results in the formation of six molecules of 3-phosphoglycerate, which are then converted into glyceraldehyde-3-phosphate (G3P) through a series of biochemical reactions. The G3P molecules can then be used to produce glucose or other carbohydrates.
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Bone plays a central role in the regulation of blood levels of A) potassium. B) iron. C) sulfate. D) calcium. E) sodium.
Bone plays a central role in the regulation of blood levels of calcium.
The correct option is D.
What is the role of the bone in the regulation of blood levels of calcium?The bones play an important role in the regulation of blood levels of calcium through a process called bone remodeling, which is the continuous turnover of bone tissue.
When the blood calcium level is low, parathyroid hormone (PTH) is released by the parathyroid gland. PTH stimulates osteoclast activity, leading to an increase in bone resorption and the release of calcium into the bloodstream.
When the blood calcium level is high, the thyroid gland releases calcitonin, which inhibits osteoclast activity, leading to a decrease in bone resorption and the deposition of calcium into the bone matrix.
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Select all of the following that are functions of membrane proteins. -Cell signaling -Cell recognition -Energy transduction -Transport.
Cell signaling, cell recognition, energy transduction, and transport are the functions of membrane proteins.
What are the three purposes that membrane proteins serve?Processes that are necessary for the health and development of biological cells are mediated by membrane proteins. Receptors facilitate communication between the cell and its environment, membrane-embedded enzymes initiate chemical reactions, and membrane-embedded transporters move ions and larger solutes across membranes.
Which of the following does not require membrane proteins to perform?Explanation and Response: E) store nutrients within cells is the correct response. Because they are too small and inconveniently located to actually distribute nutrients throughout the cell, cell membrane proteins cannot store these nutrients.
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according to this phylogenetic tree, which of these pairs of prokaryotic subgroups share the most recent common ancestor?
According to this phylogenetic tree, cyanobacteria is the pairs of prokaryotic subgroups share the most recent common ancestor.
What are cyanobacteria?
Cyanobacteria (also known as blue-green algae) are a group of photosynthetic bacteria that are found in a wide range of habitats, including freshwater, marine, and terrestrial environments. They are some of the oldest known organisms on Earth, with fossil evidence dating back over 3 billion years.Cyanobacteria are unique among bacteria in that they have the ability to carry out oxygenic photosynthesis, a process that uses sunlight to generate energy and produces oxygen as a byproduct. This process is similar to the photosynthesis carried out by plants and is thought to have played a crucial role in the evolution of life on Earth by generating oxygen in the atmosphere.In terms of their evolutionary relationships with other prokaryotic groups, cyanobacteria are classified within the domain Bacteria, and are thought to be closely related to other photosynthetic bacteria such as the Chlorobi and Chloroflexi. However, the precise relationships between these groups are still the subject of ongoing research and debate among scientists, and the exact branching patterns of their evolutionary history may vary depending on the specific phylogenetic analysis being performed.
In summary, while cyanobacteria are believed to be one of the earliest and most important groups of prokaryotes in the evolutionary history of life on Earth, the specific details of their relationships with other prokaryotic groups may vary depending on the specific phylogenetic analysis being performed.
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What molecule connects the sugars in a strand of DNA? (hint: part of the backbone of DNA) -phosphate -ribose -glucose -deoxyribose.
The molecule that connects the sugars in a strand of DNA is phosphate.
The backbone of a DNA molecule is composed of repeating units of deoxyribonucleotides, each of which contains a deoxyribose sugar, a nitrogenous base, and a phosphate group.
The deoxyribose sugars and phosphate groups alternate to form the sugar-phosphate backbone of the DNA double helix.
The phosphate group is responsible for connecting the 3' carbon of one deoxyribose sugar to the 5' carbon of the adjacent deoxyribose sugar through a phosphodiester bond. This bond forms a strong covalent linkage between adjacent nucleotides in the backbone, providing stability and structural integrity to the DNA molecule.
Therefore, the correct answer is A) phosphate.
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a food label says one serving contains 300 calories, 20g of total fat, and 8g of carbohydrates. how many grams of protein does one serving contain? a. 13g b. 22g c. 32g d. 44g e. 88g
A food label says one serving contains 300 calories, 20g of total fat, and 8g of carbohydrates. 22g of protein does one serving contain.
Proteins are huge biomolecular and macromolecular structures made up of one or more long chains of amino acid residues. Proteins serve a wide range of roles within animals, including catalyzing metabolic events, DNA replication, responding to stimuli, providing structure to cells and organisms, and transporting chemicals.
Proteins differ primarily in their amino acid sequence, which is determined by the nucleotide sequence of their genes and usually culminates in protein folding into a specific 3D structure that dictates its activity.
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How many cells form at the end of Meiosis 2 and how many chromosomes do they contain?
4 cells form at the end of meiosis 2 with 23 chromosomes.
Correct. At the end of meiosis 2, four cells form, each containing 23 chromosomes. Each chromosome consists of two sister chromatids. These four daughter cells now have half of the original 46 chromosomes [1], or 23 chromosomes.
Meiosis is a type of cell division that reduces the number of chromosomes in the parent cell by half and produces four gamete cells. During meiosis, the genetic material in the parent cell is divided into two, and the two sets of genetic material are then randomly combined to form four new daughter cells, each with half the number of chromosomes of the parent cell. During meiosis, genetic variation is also introduced, as the genetic material from the parent cell is randomly shuffled and combined. This random shuffling, combined with the crossing over of genetic material during prophase I, leads to the introduction of new genetic combinations and therefore new genetic variation. This new genetic variation is vital for the survival of a species, as it allows for the continued adaptation and evolution of the species.
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the intervertebral foramina provide passageways for
The spinal cord can travel through the intervertebral foramen.
What is the intervertebral disc's primary purpose?In order to move between neighboring vertebral bodies, absorb shock, and transport loads across the vertebral column, the intervertebral disc's primary functions are mobility and load transmission. The complex shape and structure of the intervertebral disc in the lumbar spine reflects these functions.
Does the spinal cord receive any protection from the intervertebral foramina?The bodies of the spinal vertebrae form a sturdy pillar to support the head and trunk, while the vertebral foramen function as a canal to safeguard the medulla spinalis when the vertebrae are articulated with one another (spinal cord).
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how does cell structure relate to function
The composition and operation of a cell are interconnected. A cell's size and shape play a role in determining how it will perform in our body.
From the biggest whale to the smallest microbe, all other creatures exhibit this structure-function link. For instance, the nerve cell's shape is long and thin because it is responsible for transmitting electrical signals throughout the body. Each type of human cell has a certain structure based on the task it will complete.
The proteins expressed in a specific type of cell have a role in the variation in cell function. The cell membrane, the nucleus, and the cytoplasm are the three components that make up a cell. Fine fibers are arranged in complex configurations within the cytoplasm.
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bio 311which are characteristics of a genetic maternal effect?
The characteristic of a genetic maternal effect is that it determines the Phenotype of the offspring.
At the cellular position, this happens because motherly effect genes are expressed in diploid nanny cells and also the gene products are transported into the egg. A motherly effect is a situation where the phenotype of an organism is determined not only by the terrain it gests and its genotype, but also by the terrain and genotype of its mama . In genetics, motherly goods do when an organism shows the phenotype anticipated from the genotype of the mother , irrespective of its own genotype, frequently due to the mama supplying runner RNA or proteins to the egg.
Maternal goods can also be caused by the motherly terrain independent of genotype, occasionally controlling the size, coitus, or geste of the seed. These adaptive motherly goods lead to phenotypes of seed that increase their fitness. Further, it introduces the conception of phenotypic malleability, an important evolutionary conception.
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an opening called the exists at the tip of the sacral canal
Answer:
Explanation:
The sacral hiatus is a small opening at the bottom of the sacral canal, which is located at the base of the spine. The sacral canal is a tunnel-like structure that runs through the sacrum, which is a large, triangular bone located at the base of the spine. The sacral canal contains the sacral nerves and provides a passageway for them to exit the spinal cord and travel to other parts of the body.
The sacral hiatus is formed by the absence of the lamina, which is a bony structure that forms the roof of the sacral canal. This opening allows for the sacral nerves to exit the sacral canal and continue on their way to the rest of the body. The sacral hiatus is an important landmark in the anatomy of the sacrum, and it is often used in medical procedures, such as epidural anesthesia, which involves injecting medication into the area surrounding the sacral nerves to relieve pain or provide anesthesia.