Homeostasis Higher Level 7: Nucleic Acids 1. DNA Structure 2. Transcription 3. Translation 8: Metabolism 1. Metabolism 2. Cell Respiration 3. Photosynthesis 9: Plant Biology 1. Xylem Transport 2. Phloem Transport 3. Plant Growth 4. Plant Reproduction Genetics 1. Meiosis 2. Inheritance 3. Speciation Animal Physiology 1. Antibody Production 2. Movement 3. The Kidney 4. A vector diagram will show the direction of the force as well as its magnitude.
No, though it has stimulant properties, it will not show up as an amphetamine. Log in. Study now. See Answer. Best Answer. Many different cells combined have greater function than the composition of its parts. So the whole is the greater than the composition of its parts e.
Study guides. Biology 20 cards. Which germ layer is destined to become the inner lining of body organs. What factor allows organisms such as planarian worms and plants to regenerate new individuals from fragments of parent organisms. What kind of bacterium cannot tolerate oxygen. In what cycle of viral replication does the virus destroy the host cell. How is yeast used.
What are the five main groups of arthropods. What do Amoebas use for movement. How are algae different from plants. How do cells control osmosis. What is cytoplasm. Where is ATP often produced.
What causes water to be a polar molecule. Q: Why multicellular organisms show emergent properties? Write your answer Related questions. How would you distinguish a large colonial organism from a multicellular organism?
What are the benefits of multicelluar? Distinguish between multicellular organisms and colonial organisms? In what ways do sponges show evolutionary advancement compared to a colonial protozoan? What was the first multicellular life on earth? Moreover, the change or changes at any one level must be related to the changes at all higher levels Novikoff, Thus, understanding a disease phenotype or behavior at a higher level requires that we study changes at many different integrative levels using the appropriate methodologies.
For a geneticist, chemistry, biochemistry, molecular biology, histology, and physiology are all important. Broad training in all of these techniques allows a geneticist to study emergent interactions at multiple levels. Atavism: Embryology, Development and Evolution.
Gene Interaction and Disease. Genetic Control of Aging and Life Span. Genetic Imprinting and X Inactivation. Genetic Regulation of Cancer. Obesity, Epigenetics, and Gene Regulation. Environmental Influences on Gene Expression. Gene Expression Regulates Cell Differentiation. Genes, Smoking, and Lung Cancer. Negative Transcription Regulation in Prokaryotes. Operons and Prokaryotic Gene Regulation. Regulation of Transcription and Gene Expression in Eukaryotes. The Role of Methylation in Gene Expression.
DNA Transcription. Reading the Genetic Code. Simultaneous Gene Transcription and Translation in Bacteria. Chromatin Remodeling and DNase 1 Sensitivity. Chromatin Remodeling in Eukaryotes. RNA Functions. Citation: Lobo, I. Nature Education 1 1 Of course not, but why isn't there one code to explain how everything works? Aa Aa Aa. It may be difficult to imagine that your body is made of spinning protons, neutrons, and electrons, but this is indeed the case.
It's slightly easier, however, to picture forms of matter in levels that increase in complexity. For example, subatomic particles can be organized into atoms, which are the components of molecules, and molecules can be organized into macromolecules, such as DNA and proteins, which can be built into cells.
Cells can then be organized into tissues, which form organs, and organs can be grouped into organ systems, which are built into entire organisms—including humans like you.
Organisms are units that can form populations, and then biospheres, which go on to make up even greater levels of complexity. Emergent Properties. Figure 1: Biological matter can be organized into levels of increasing complexity.
Many different kinds of macromolecules are used to build cells, which in turn can be organized into tissues. Tissues form organs, and several organs may have interrelated functions in a cohesive organ system, such as the digestive system. A complex organism contains multiple organ systems with different functions. Multiple organisms of a single species may form a group, called a population.
Many populations of different species form diverse communities, and communities that share the same geographical space are part of a larger ecosystem.
Figure Detail. Dimensions of Analysis. References and Recommended Reading Novikoff, A.
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