Amino acids myoglobins

Mb Sperm whale myoglobin, an oxygen-binding protein 153 amino acid residues. Note that Mb lacks cysteine. 

The secondary and tertiary structures of myoglobin and ribonuclease A illustrate the importance of packing in tertiary structures. Secondary structures pack closely to one another and also intercalate with (insert between) extended polypeptide chains. If the sum of the van der Waals volumes of a protein s constituent amino acids is divided by the volume occupied by the protein, packing densities of 0.72 to 0.77 are typically obtained. This means that, even with close packing, approximately 25% of the total volume of a protein is not occupied by protein atoms. Nearly all of this space is in the form of very small cavities. Cavities the size of water molecules or larger do occasionally occur, but they make up only a small fraction of the total protein volume. It is likely that such cavities provide flexibility for proteins and facilitate conformation changes and a wide range of protein dynamics (discussed later). 

As noted, hemoglobin is an tetramer. Each of the four subunits has a conformation virtually identical to that of myoglobin. Two different types of subunits, a and /3, are necessary to achieve cooperative Oa-binding by Hb. The /3-chain at 146 amino acid residues is shorter than the myoglobin chain (153 residues), mainly because its final helical segment (the H helix) is shorter. The a-chain (141 residues) also has a shortened H helix and lacks the D helix as well (Figure 15.28). Max Perutz, who has devoted his life to elucidating the atomic structure of Hb, noted very early in his studies that the molecule was... 

Imately 65 X 55 X 50 It Is composed of four polypeptide chains each resembling quite closely the myoglobin chain The three dimensional structure of the subunits Is held together by weak noncovalent bonds The polar amino acid side chains are In contact with the solvent, and the nonpolar residues are located In the Interior of the molecule or In regions which form the contacts between chains The heme group Is located In a pocket In each chain residues In contact with heme are Invariable ( e are the same In different mammalian hemoglobins) and the bonds between heme and chain are hydrophobic Interactions Contacts between like chains (a-a are... 

Capillary zone electrophoresis, an up-to-date high resolution separation method useful for proteins and peptides, has been shown to be a useful method for determining electrophoretic mobilities and diffusion coefficients of proteins [3], Diffusion coefficients can be measured from peak widths of analyte bands. The validity of the method was demonstrated by measuring the diffusion coefficients for dansylated amino acids and myoglobin. 

In the 1960, it was noticed that substitutions in some amino acid sequences seemed to occur at a roughly constant rate over time (Zuckerkandl and Pauling, 1965). This is the well known molecular clock hypothesis. For a particular protein such as cytochrome c or myoglobin, it was noticed that there was a linear relationship between divergences of pairs of sequences, as measured by numbers of amino acid differences, and divergences of the species, as measured by dates from the fossil record. There is still considerable debate as to how accurate the molecular clock may be and as to how it might vary systematically depending on the species, type of protein, and kinds of substitutions that are counted. 

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