Planaria contains stem cells and the cells can be seen individually.
What are planaria?Planaria are predators that eat various smaller invertebrates including shrimp, water fleas, and other small worms in aquatic environments.
These animals have an amazing stem cell system that has evolved. The complete range of cell types and organs in the planarian body plan, including the brain, digestive, excretory, sensory, and reproductive systems, are produced by a single pluripotent adult stem cell type called a "neoblast."
Therefore, stem cells can be observed as individual cells in planaria.
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within the skin, the is the layer that is composed of stratified squamous epithelium. (True or False)
True. The epidermis is the outermost layer of the skin and is composed of stratified squamous epithelium. It equips a barricade between the body and the external environment.
What are the different types of epithelial tissue?There are several types of epithelial tissues: Simple squamous epithelium, Simple cuboidal epithelium, Pseudostratified columnar epithelium, Simple columnar epithelium, Stratified squamous epithelium and Transitional epithelium.
Where is Pseudostratified columnar epithelium found?The pseudostratified columnar epithelium is found in the respiratory tract, including the nasal cavity, trachea, and bronchi. In the respiratory tract, this type of epithelium contains specialized cells called goblet cells that secrete mucus to trap inhaled particles and microorganisms.
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I can't figure out the rest of this, please help!!
Answer:
two maps look one it and do it
Explanation:
hop this helps
What was Elliott's blue eye brown eye experiment 1968?
The Elliott's blue eye brown eye experiment was an experiment conducted by Jane Elliott in 1968. The experiment was designed to help students understand the effects of discrimination and prejudice.
In the experiment, Elliott divided her third-grade class into two groups based on their eye color: those with blue eyes and those with brown eyes.
She then told the blue-eyed students that they were superior to the brown-eyed students and gave them special privileges, such as extra recess time and access to the water fountain. The brown-eyed students were told that they were inferior and were not allowed to use the water fountain or have extra recess time.
The experiment showed that the students quickly adopted the attitudes and behaviors that were expected of them based on their eye color. The blue-eyed students became arrogant and condescending, while the brown-eyed students became submissive and insecure.
The experiment demonstrated the powerful effects of discrimination and how quickly people can adopt prejudiced attitudes and behaviors.
Overall, the Elliott's blue eye brown eye experiment was a groundbreaking experiment that helped to shed light on the effects of discrimination and prejudice.
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select the groups of organisms that are autotrophs
a) algae
b) all bacteria
c) animals
d) plants
The groups of organisms that are autotrophs include a) algae and d) plants.
What are autotrophic groups of organisms?The autotrophic groups of organisms are those taxonomic groups in which species are able to generate energy by using sunlight and they are on the basis of all food web by providing energy to primary consumers such as in the case of photosynthetic plants and also algae.
Therefore, with this data, we can see that autotrophic groups of organisms are capable of producing energy on their own instead of eating other organisms.
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the sequence of amino acids in a protein is its ___________ structure.
The correct answer to this is the primary structure that makes an amino acid profile. The formation of quaternary structure is a result of the association of folded polypeptide molecules with complicated functional proteins.
Long chains of amino acids, which are the monomeric building blocks of proteins, are used to create proteins. A nitrogen group, a carboxyl group, and a variable side chain group are all connected to the amino acid's core carbon atom. The ultimate shape of a protein is influenced by the kind of amino acid and the sequences, which is significant since function is determined by form. A protein's fundamental structure is defined as the arrangement of its amino acids. The tertiary structure is determined by the folding of protein chains in space, whereas the secondary structure is determined by the dihedral angles of the peptide bonds.
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Aristotle was perhaps the first person to classify organisms, but who was the first to develop a systematic approach to classifying organisms in the 1700s that is still partly used today?a. Galenb. Carl Linnaeusc. Stephen J. Gouldd. Ernst Mayr
The attempt to categorise life was made long before Carolus Linnaeus (1707-1798). For instance, Aristotle maintained that each species had a distinct shape and could be categorised according to some of its essential traits.
Small-town Rshult in southern Sweden's Smland region is where Linnaeus was born. At Uppsala University, where he received the most of his post-secondary education, he started instructing botany classes in 1730. Between 1735 and 1738, he lived abroad, studied, and published the first edition of his Systema Naturae in the Netherlands. He then went back to Sweden and started instructing in Uppsala's departments of botany and medicine. He made several travels around Sweden in the 1740s to locate and categorise plants and animals. He continued to collect and categorise diverse animals, plants, and minerals during the 1750s and 1760s, in addition to writing a number of books.
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the enzyme the glues the dna fragments together is
Ligases are the enzymes that link DNA fragments together in cell and in laboratory.By ligation, only DNA segments with complimentary ends that match can be linked.
What holds DNA collectively?A dna synthesis chromosome is composed of two identical thread-like strands that are linked together prior to cell division.A ring-shaped protein complex termed cohesin is in charge of maintaining these sister chromatids together, probably by encircling them within its ring.
What kind of bonds are used to reassemble DNA?They made it possible to Watson and Crick to determine that the molecule must have the form as two strands bound together within a double-helix structure by demonstrating that DNA had the molecular glue called as hydrogen bonds.
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A collection of amino acids could be used to build a... a. protein b. complex carbohydrate c. triglyceride d. nucleic acid e. cell
A protein could be created from a group of amino acids. These amino acids are arranged in a long chain and joined to one another by covalent peptide bonds to form proteins.
Polypeptides are another name for proteins. If DNA serves as the building block, then golgi apparatus are the masons who use amino acids as the "bricks" to construct the protein. The two ribosome, small and big, come together to create the full ribosome, which is used to produce proteins. Both transfer RNA (tRNA) and mRNA molecules can bind to it. The building components of proteins are amino acids. The vast bulk of chemical processes that take place in cells are catalysed by proteins. Many of the building components of a cell are provided by them.
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what is the name for incomplete remnants of osteons?
The Haversian canal is encircled by the osteon, the main structural component of dense (cortical) bone, which would be made up of concentric osseous layers called lamellae. The Haversian.
What do you mean by element?A fundamental object that is difficult to divide into smaller bits is known as an element. An element is a pure substance that cannot be broken down by quasi reactions in chemistry and physics. A discrete component of a bigger structure or collection is referred to as an element in computers and mathematics.
What 24 elements are necessary?Iron, titanium, zinc, copper, molybdenum, nickel, sulfur, boron, chlorine, calcium, magnesium, potassium, phosphorus, potassium, calcium, and magnesium. Chromium, molybdenum, and titanium are other metals that have been suggested as potential essential or advantageous elements, however there is little conclusive evidence for any of them.
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What arrangement is not seen in rod-shaped cells?
Bacilli are rod-shaped cells, whereas cocci are spherical, oval, or round-shaped cells. These two do not demonstrate the
What is the source of cocci bacteria?
Coccobacilli from of the genus Brucella are the culprits behind the disease brucellosis. Usually, it can be found in animals like sheep, goats, and goats. However, unpasteurized dairy products are a source of infection for people. Additionally, the germs might enter your body using mucous membranes or scrapes and scratches.
Is cocci an infection with staph?
A genus of Punnet bacteria belonging to the Staphylococcaceae family of the Bacillales order is called Staphylococcus. They cluster together like grapes and appear spherical (cocci) under a microscope.
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What is formed when two haploid gametes combine?
When two haploid gametes combine, they form a diploid zygote.
A haploid gamete is a cell that contains one set of chromosomes, while a diploid zygote is a cell that contains two sets of chromosomes, one from each parent. During sexual reproduction, two haploid gametes, one from each parent, combine to form a diploid zygote that will develop into a new individual. The fusion of the gametes is called fertilization, and it results in the restoration of the diploid number of chromosomes in the offspring.
Diploid zygote: It is a cell that results from the fusion of two haploid gametes during fertilization. Each haploid gamete contains a single set of chromosomes, while the diploid zygote contains two sets of chromosomes, one from each parent. The process of fertilization restores the diploid number of chromosomes in the offspring, allowing for the formation of a new individual with a unique combination of genetic material.
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What is one reason lactase persistence has spread throughout European and African cultures?
Genetically, this is due to the passing of the advantageous allele from parent to offspring. This allele is advantageous due to a long history of cattle domestication and an increase of dairying in European and African cultures
Which is more important in the plant life cycle, mitosis or meiosis?A. mitosis, since it creates gametesB. Meiosis, since it allows for genetic variationC. neither, because both are required to complete life cycleD. Meiosis, since it is more complexE. neither
A. mitosis, since it creates gametes is more important in the plant life cycle, mitosis or meiosis
Meiosis or mitosis: which process is more vital to life?
Cells divide to create new cells during both meiosis and mitosis. As a result, both of these processes are essential for the continued existence of reproducing organisms. Mitosis reproduces the non- cells required for growth and development, whereas meiosis creates the cells required for reproduction to take place.
Meiosis plays a crucial role in ensuring that all creatures created through reproduction have the appropriate amount of chromosomes. Through the mechanism of recombination, meiosis also results in genetic variety.
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Which one is correct base pairing for DNA molecule? thymine and guanine | cytosine-uracil | adenine-thymine | thymine-uracil
Adenine and thymine (A-T) are the only two bases that are always paired with cytosine in DNA (G-C). The only difference in RNA is that adenine invariably pairs alongside uracil (A-U).
What is DNA and where is it found?Deoxyribonucleic acid, also referred to as DNA, is a sophisticated molecule that houses all of the data required to establish and maintain an individual. The communication component is DNA. These commands are dispersed throughout 46 lengthy chromosome-like structures that are found within every one of your cells.
What is DNA composed of?DNA is made up of a group of chemicals called nucleotides. Each nucleotide consists of an ammonium backbone, a sugars member, and a hydroxyl group. The nucleotide bases adenosine (A), thymine (T), guanine (G), as well as cytosine (C) can all be found in DNA (C). A human genome has trillions of DNA bases.
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what enzyme checks for errors or proof reads the dna?
The enzyme that checks for errors or proofreads DNA during DNA replication is called DNA polymerase.
DNA polymerase is a group of enzymes responsible for synthesizing new DNA strands during DNA replication, and also for repairing damaged DNA.
During DNA replication, DNA polymerase reads the existing DNA strands and uses them as a template to synthesize new complementary strands. As it adds new nucleotides to the growing strand, the enzyme checks for errors in base pairing, and if a mismatch is detected, it can remove the incorrect nucleotide and replace it with the correct one. This process of error correction is known as proofreading, and it helps ensure the fidelity of DNA replication and the accuracy of the genetic code.
There are several different types of DNA polymerase, each with slightly different functions and roles in DNA replication and repair. In addition to proofreading, some types of DNA polymerase can also repair damaged or mismatched bases, or help to insert new DNA sequences into existing DNA strands.
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The fruit fly has four chromosome pairs. How many possible combinations of chromosomes can be produced by meiosis and fertilization?.
There are two equally likely methods for the four chromosomes in a diploid cell to be inherited. Gametes with four equally likely chromosome pairings result from this variance in chromosome orientation.
How many chromosome combinations are there during meiosis?Each gamete has a unique set of chromosomes (and alleles) because the division of chromosomes into gametes occurs at random during meiosis I.
In meiosis, are there 23 chromosomes?Meiosis can be conceptualised as the process by which cells meticulously count and divide their chromosomes to ensure that each egg or sperm contains precisely 23 chromosomes. The resultant fertilised egg contains precisely 46 chromosomes when a sperm with 23 chromosomes fertilises an egg with 23 chromosomes.
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As the malaria death rate increases, what would you expect to happen to the number of sickle-cell deaths? Explain your answer in terms of natural selection and the "heterozygote advantage."
As the malaria death rate increases, the number of sickle-cell anemia deaths also increase. Heterozygote advantage is for the individuals who are heterozygous for sickle cell as they are only carriers of the disease and hence get naturally selected to survive.
Sickle cell anemia is the genetic disease where red blood cells change their shape from oval to sickle-shaped. This also provides advantage for malaria disease because the sporozoites are not able to survive in sickle-shaped cells.
Heterozygous people are carriers for the disease who do not actually suffer from the disease. This provides them the advantage to not suffer from malaria as well. Hence such individuals are naturally selected to survive.
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the first scientist to observe cells with a microscope was
The first scientist to observe cells with a microscope was "Antonie van Leeuwenhoek", a Dutch scientist who lived in the 17th century.
Leeuwenhoek was a skilled lens maker who created some of the most powerful microscopes of his time. In the 1670s, he used one of his microscopes to observe a variety of materials, including water, blood, and insects. He observed tiny organisms that he called "animalcules", which we now know to be bacteria and other microorganisms. Leeuwenhoek's observations helped to lay the foundation for the field of microbiology and provided the first evidence for the existence of a microscopic world.
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one of the major themes of this lab is that molecular and morphological evidence always unambiguously suggest a single correct phylogenetic tree.
True or false?
False It has been proposed that discrepancies between phylogenetic trees derived from morphological and evidence are erroneous or that molecular results must be favoured a priori.
What two kinds of phylogenetic trees are there?Cladograms and phylograms are the two primary categories of phylogenetic trees. In contrast to phylograms, which do feature scaled branches, cladograms do not reflect the length of time between generations. Rooted or unrooted cladograms and phylograms are also possible.
Why are phylogenetic trees useful?A reliable way for figuring out how current species have developed is phylogenetics. By examining phylogenetic trees, scientists may explain the distinctions and similarities among species or discover more about the way species have evolved.
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state the definition of abiotic
Abiotic refers to the non-living components of an ecosystem or environment. This includes physical and chemical factors such as temperature, water, sunlight, soil composition, and atmospheric gases.
Abiotic factors play an important role in determining the distribution and abundance of living organisms in an ecosystem.
Abiotic factors can be classified as either climatic or edaphic. Climatic factors include temperature, precipitation, wind, humidity, and sunlight, while edaphic factors refer to the physical and chemical properties of the soil, including pH, texture, and nutrient content.
Abiotic factors can have direct or indirect effects on living organisms. For example, temperature can directly affect an organism's metabolism and growth, while soil pH can indirectly affect the availability of nutrients for plant growth.
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This plant cell is in which stage of mitosis
A: Telophase
B: Anaphase
C: Prophase
D: Metaphase
Answer:
Without seeing the plant cell, it is not possible to determine the exact stage of mitosis the plant cell is in. However, during metaphase, the chromosomes align at the equator of the cell and are attached to the spindle fibers. During anaphase, the spindle fibers separate the sister chromatids and pull them towards opposite poles of the cell. During telophase, the chromosomes reach the poles of the cell, and a new nuclear envelope begins to form around each set of chromosomes. Therefore, if the plant cell has chromosomes that are aligned in the middle of the cell, it is likely in metaphase. If the chromosomes are being pulled towards opposite poles of the cell, it is likely in anaphase. If the chromosomes have reached the poles and new nuclear envelopes are forming, it is likely in telophase.
How would administering a non-hydrolyzable form of GTP to a cell affect its G protein-coupled signal transduction pathways?
A. The pathways would lose their specificity of response.
B. The pathways would become hypersensitive to stimuli.
C. The pathways would respond in unpredictable ways.
D. The pathways would not turn off.
E. The pathways would become nonresponsive to stimuli.
Administering a non-hydrolyzable form of GTP to a cell would affect its G protein-coupled signal transduction pathways in the following way: The pathways would become hypersensitive to stimuli. Option B is correct.
G proteins are involved in signal transduction pathways that relay signals from extracellular molecules to intracellular effectors. When an extracellular molecule binds to a G protein-coupled receptor (GPCR), the G protein is activated and binds to GTP, which is then hydrolyzed to GDP. This GTP hydrolysis is essential for turning off the signal transduction pathway and returning the G protein to its inactive state.
Administering a non-hydrolyzable form of GTP to a cell would prevent the G protein from hydrolyzing GTP to GDP, leading to the continuous activation of the pathway. This would make the pathway hypersensitive to stimuli, as even a small amount of extracellular molecule could lead to the activation of the pathway. The pathway would not turn off, leading to a continuous signaling response, which could be harmful to the cell.
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Which component of the lymphatic systems consists of unencapsulated aggregates of lymphocytes within organs of the body?A. LymphB. Lymphatic tissuesC. Lymphatic organsD. Lymphatic vessels
The body's organs include unencapsulated lymphocyte clumps called lymphatic tissues, which are part of the lymphatic system.
Which lymphatic system part is made up of unencapsulated?The term "diffuse lymphatic tissue" refers to collections of lymphocytes that are not encapsulated that are found in the lamina of numerous organs that are permanently in close contact with an epithelium, such as the lungs, gut, respiratory system, etc.
What is the name of encapsulated lymphoid tissue?Lymphatic nodules are distinct, encapsulated bundle of lymphatic cells (follicles). These bundles are clearly delineated from surrounding cells by their borders. The mucus layers that line the digestive, lung, hormonal, and urinary tracts develop nodules within the lamina propria.
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which structure of the urinary system is responsible for filtering out blood of toxins?
Toxins and nutrients are separated from your blood by your kidneys. Proteins, vitamins, minerals, and other nutrients are reabsorbed into the bloodstream. Your ureters carry waste materials and urine to your bladder.
Where do your kidneys hurt?You get soreness in the area around your kidneys: near to the center of your back, on either side of your spine, just below your ribs. Your kidneys are inside the urinary tract.
How can you determine whether your kidneys are unhealthy?If you find yourself having to urinate more often, especially at night, it can be a sign of renal disease. In cases where the kidney filters are damaged, the urge to urinate could become more urgent.
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Identify the part of the cell theory represented by the images below. Do NOT just write part 1 or
part 2!!
Answer:
See below
Explanation:
Match your written answers to the pictures below, this is how I THINK they are matched. Some are more wishy washy than others
All organisms are made up of one of more cells - pic of cat
All cells arise from preexisting cells - pic of cell division
Cell is the structural and functional unit of life - pic of cells
which stage is not associated with hemimetabolous metamorphosis
Answer: Hemimetabolous insects do not have a pupal stage. The general appearance of the immature stages is somewhat similar to that of adults, although there may be some dramatic differences in lifestyle.
Explanation:
lichens are ____associated of a fungus with ______A. symbiotic; an ala or bacterioumB. saprobic; an alga or a bacteriumC. parasitic; an alfa or a bacteriumD symbiotic; plant or rootE. parasitic; plant roots
lichens are symbiotic associated of a fungus with an ala
What do lichens and fungus share?Lichens are frequently understood to be symbiotic associations between a fungus and a partner that contains chlorophyll, such as green algae, cyanobacteria, or both. The partner, which supplies photosynthetically fixed carbon as the system's energy source, has a suitable environment provided by the fungus.
Lichens are a type of symbiotic connection between fungus and algae. The algae undergoes photosynthesis and gives the fungi sustenance in the form of sugars, while the fungi give the algae water and minerals.
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in the presence of oxygen, the enzyme TYROSINASE catalyzes the oxidation of DOPA producing dopaquinone which spontaneously converts into dopachrome. Which of the following best describes tyrosinase?
A polypeptide chain with active sites that bind DOPA and oxygen.
Option B)
Tyrosinase is an enzyme that catalyzes the oxidation of DOPA(3,4 dihydroxyphenylalanine) producing dopaquinone. This dopaquinone gradually turns into dopachrome which is a dark black, brown color substance.
Tyrosinase is an oxidase enzyme involved in two distinct reactions of melanin production.
It is a copper containing enzyme that facilitates the reaction of melanin synthesis easily, being present in both plant and animal cells.
Tyrosinase in broad terms is also known as molecule T4, sourcing from the TYR gene and mainly defined for reactions like melanogenesis and pigmentation.
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Ecological systems theory
How this diagram can help explain your development so far
How your network affects you now and how that might be significant.
This diagram of Ecological systems theory can help explain our development so far by highlighting how the environment we live in influences our daily living.
What is Ecological systems theory?This is referred to as the type of theory which argues that the environment you grow up in affects every facet of your life.
It talks about the influence of social environments on human development and the way in which the network affects us is through our daily activities which may be in different types of conditions.
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ordinary cell division produces two daughter cells that are genetically identical. this type of cell division is important for all of the following functions except
Ordinary cell division produces two daughter cells that are genetically identical. Mitosis, type of cell division is important for all of the following functions except production of sperm cells
A cell prepares for cell division by replicating its chromosomes, segregating them, and creating two identical nuclei during the mitosis phase. The cell's contents are often evenly divided into two daughter cells with identical genomes after mitosis.
The seminiferous tubules, a network of tiny tubes found in the testicles, are where sperm development occurs. These tubules are birthed with plain circular cells inside. These sperm cells change into sperm cells throughout puberty as a result of the hormones testosterone and other hormones.
When people talk about "cell division," they typically mean Mitosis, which is the process of creating new cells for the body. The cell division process known as meiosis is what produces egg and sperm cells. A vital process for life is mitosis.
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