Percent heavy chain

Integration of the electropherogram for an antibody to quantify main protein species percent light chain and heavy chain (%LC and %HC) and minor species such as percent non-main and percent high molecular weight species (%non-main species and %HMW) is shown in Figure 5. Corrected peak areas were used for quantification. The % corrected peak area is defined as ... 

Figure 1. Sequences of acrosin light chains and N-terminal sequences of acrosin heavy chains shown aligned with the sequences of corresponding portions of other serine proteases. Positions identical with the porcine acrosin sequence are underlined. Alignments for plasmin, prothrombin, Clr b-chain, cathepsin G, and plasminogen activator are from (24), except minor adjustments were made to maximize similarity with acrosin. Sequence similarities expressed as percent positional identity to the porcine sequences are indicated to the right of each sequence. Abbreviations po - porcine, ca - caprine, bo - bovine, hu - human.

Percent of label residing outside the variable region (N1-N120) of the heavy chain. 

The bottom of the barrel contains heavy, smelly compounds that have polyaromatic rings and that contain up to several percent of S and N in aromatic rings and in side chains sulfides and amines. This fi action will not boil below temperatures where the molecules begin to crack, and it is called residual oil or vacuum resid if it boils at reduced pressure. This fraction also contains perhaps 0.1% of heavy metals tied up as porphyrin rings in the polyaromatics. All these species are severe poisons to either FCC or catalytic reforming... 

When used in place of hydrogen, deuterium or (sometimes designated as D) results in water approximately 10 percent denser than normal. Termed "heavy water," D O is harmless in small doses and can therefore be used safely as a tracer in the body, most commonly in measuring a subject s metabolic rate. Heavy water is also used as a neutron moderator, meaning it is able to slow neutrons by collisions without absorbing them.This process is crucial for the chain reaction in nuclear reactors, where fast neutrons are produced by the fission process, but slow or thermal neutrons are more likely to induce fission. 

WAO is used routinely in commercial applications to treat sewage sludge containing 10 to 15 percent solids. WAO does not fully mineralize organics but instead reduces them to short-chain molecules such as acetic acid. Thus, effluents may have to be treated further by biotreatment, possibly at a POTW. Prior to biotreatment, toxic heavy metals would have to be removed. Arsenic, if present, would be converted to arsenate ion, a form that is more readily stabilized. NSCMP has plans to test WAO for treatment of secondary waste streams (see Table 2-4). 

The pile at Haigerloch had served for the KWI s final round of neutron-multiplication studies. One and a half tons of carefully husbanded Norsk-Hydro heavy water moderated it its fuel consisted of 664 cubes of metallic uranium attached to 78 chains that hung down into the water from the metal shield Pash describes. With this elegant arrangement and a central neutron source the KWI team in March had achieved nearly sevenfold neutron multiplicatioi Heisenberg had calculated at the time that a 50 percent increase in the size of the reactor would produce a sustained chain reaction. 

Fire needs four essential elements to start oxygen, fuel, spark/ignition source, and a chemical chain reaction. The oxygen is available in the air we breathe, but oxygen can sustain a fire in concentrations as low as 15 percent (oxygen to air), lower than the tjrpical 19.5 to 21 percent in air. A 10 percent concentration of oxygen would be necessary to suppress a fire. Also, heavy concentrations of oxygen can accelerate a fire. 

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