Transport in Living Things Chapter 25 Chapter 25.5 Transport System in Flowering Plants What did we learn? Transport of mineral salts into the roots Movement of substances Passive process Active process Active Transport Diffusion Osmosis Movement of molecules from a region of lower concentration to a ...
Why is there a need for a transportation system in living organisms? (a) Describe the structure of the flagella. (b) Describe its function. Describe gas transport between the respiratory, circulatory, and muscular systems. In the context of Physiology, define or describe the following term: Dif...
Most of them are involved in transporting many kinds of substrates in living organisms. Because they are closely related to some important biological processes, such as multidrug resistance (MDR) and etc, ABC transporters have attracted more and more researchers' attention. ABC transporters are most...
Construction of hybrid bi-microcompartments with exocytosis-inspired behavior toward fast temperature-modulated transportation of living organisms. Angew. Chem. Int. Ed. Engl. 60, 20795–20802 (2021). Article CAS PubMed Google Scholar Gao, N., Xu, C., Yin, Z., Li, M. & Mann, S. ...
This section will map the distribution of MPs in sediments, seawater, and air around the MENA region. The analysis of the literature was performed to reveal potential hot spots and trends toward transport pathways. Occurrence in soils, air, water and macro-organisms will be discussed. Occurrence...
Pyrimidine and purine biosynthesis and degradation in plants. Nucleotide metabolism operates in all living organisms, embodies an evolutionarily ancient and indispensable complex of metabolic pathways and is of utmost... R Zrenner,M Stitt,U Sonnewald,... - 《Annual Review of Plant Biology》 被引量...
Many transport systems, have been identified and fully characterized over the years in a wide variety of living organisms, with the bacterial lactose permease (LacY) and the potassium channels (KcsA) being frequently at the forefront of such studies (Kaback, 2005; Doyle et al., 1998). However...
Aquaporins are a class of integral membrane proteins or major intrinsic proteins (MIP) that form pores in the membrane of biological cells. Living organisms are composed mainly of water, whose vital function as a 'universal solvent' enables the body to maintain its osmotic, metabolic, thermal, ...
Mass transport at the sub-nanometre scale, including selective transport of gases, liquids and ions, plays a key role in systems such as catalysis, energy generation and storage, chemical sensing and molecular separation. Highly efficient biological channels in living organisms have inspired the design...
This review gives a brief description of the fluid transport control mechanisms in living organisms and the biomimetic interfacial design to create controllable fluid manipulation devices. The recent progress of gravity-independent liquid transport, underwater gas transport, and multiphase fluids transport ...