<span>people tend to be less inhibited in their behavior and take greater risks when in a group than when they're alone. Which psychologist finds this interesting</span>
The 3 main layers are the crust, the mantle, and the core. The crust consists of everything you see- dirt, rock, minerals, and everything you can see. We live on the crust, and it floats around on the magma in pieces we call continents. The next layer is the mantle, which is where all the magma is- this is what the crust floats on. It consists of molten rock and minerals; the bottom layer of the crust is continually melting under the extreme heat, but it is replaced when volcanoes spew the magma back onto the surface. The last layer is the core, an extremely fast-spinning ball of heavy metals. It is split into two layers; inner and outer core. The outer core is mostly an alloy of nickel and iron with some other heavy metals thrown in, like platinum and gold, but the inner core is almost solid iron. It is so hot that it should be melted, but the pressure of everything on top of it makes it so it has nowhere to melt to, keeping it solid.
Hope this helps!!! ^_^
The answer is "global torrent".
Sociologist Todd
Alan Gitlin is an American, also a political essayist, writer, and social
observer. He is printed on the broad communications, governmental issues,
scholarly life and expressions of the human experience, for both popular and scholarly publications. Gitlin turned into a political activist
in 1960, when he joined a Harvard group called Tocsin, against atomic weapons.
Disulfide bridges can be found in tertiary and quaternary structure levels of protein organization.
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What does a disulfide bridge in a protein do and what is its function?</h3><h3>
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Disulfide bonds or S-S bonds are other names for disulfide bridges. The establishment of these covalent bonds, which are formed between the sulfur atoms of two cysteine amino acids, stabilizes the tertiary and higher-order structure of proteins.
A frequent method utilized by nature to stabilize many proteins is the formation of disulfide bridges. These disulfide linkages are frequently observed in extracellular proteins that cells produce. The endoplasmic reticulum, an organelle, is where disulfide bridges are formed in eukaryotic species. When numerous proteins enter the secretory route for folding, disulfide linkages are formed between cysteine residues.
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