Amino acids have different properties according to their R group. They can be negative, positive, aromatic, etc. - which will affect where that amino acid will be found, and what functions it will perform. For example, Glutamate and Aspartate are negative amino acids, and so are most likely to be found on the surface of proteins. Whereas Leucine and Methionine are hydrophobic, so they will be found in the interior of the protein. The sequence of amino acids causes the protein to fold in a certain way to find the most energetically and functionally favourable shape.
CATTGG ha been identified as a target sequence for the transcription factor BMAL1.
i don't know he he he he ha ha ha ha
i dont know but 1 boner ha ha ha ha XD
Complex molecules made from amino acids are called protein ~or~ proteins.( ...Next time, don't look to the internet for your test answers and actually study... )no i dont like to study so ha ahole
Amino acids have different properties according to their R group. They can be negative, positive, aromatic, etc. - which will affect where that amino acid will be found, and what functions it will perform. For example, Glutamate and Aspartate are negative amino acids, and so are most likely to be found on the surface of proteins. Whereas Leucine and Methionine are hydrophobic, so they will be found in the interior of the protein. The sequence of amino acids causes the protein to fold in a certain way to find the most energetically and functionally favourable shape.
You'd go BOOM! ha ha ha :)
Because the slaves were virgins like you ha ha "tag your it"
well stuff happens. Ha
Each cationic acid HA+, when it donates ONE proton H+, will form its conjugated base A of the acid HA+. (Example: NH4+ ammonium, acid NH3 ammonia, base)Each neutral acid HA, when it donates ONE proton H+, will form its conjugated base A- of the acid HA. (Example: CH3COOH acetic acid CH3COO- acetate, base)Each anionic acid HA-, when it donates ONE proton H+, will form its conjugated base A2- of the acid HA-. (Example: HS- (mono)hydrogen sulfide, acid S2- sulfide, base)Each anionic base HA-, when it adopts ONE proton H+, will form its conjugated acid H2A of the base HA-. (Example: HS- mono-hydrogen sulfide, base H2S di-hydrogen sulfide, acid)Each anionic base A-, when it adopts ONE proton H+, will form its conjugate acid HA of base A-. (Example: CH3COO- acetate, base CH3COOH acetic acid)Each neutral base A, when it adopts ONE proton H+, will form its conjugate acid HA of base A-. (Example: NH3 ammonia, base NH4+ ammonium, acid)
Ha! I was so tempted do write this exact same question, all you C.Manor people PUSH ON! YOU WILL FIND IT xD
For a weak acid, HA...HA ==> H^+ + A^- Ka = [H+][A-]/[HA] Plug these values into the Ka equation. You also must know the [HA] that you start with. Solve for [H+] Take -log [H+] = pH
A strong acid is an acid that ionizes completely in an aqueous solution by losing one proton. The strength of acids can be compared by using pkas. These are found by; For the acid/base reaction - HA A− + H+, hence Ka= [A-][H+]/[HA] pka = -log ka
Yes, he does. I know because I have video-taped him on several occasions when he is asleep. ha ha ha. as if anyone would know the answer to that stupid question!
weak acid
Ka = [H+][A-] / [HA] Hence [H+] = Ka[HA] / [A-] Remember pH = -log(10)[H+] 'logging' both sides. -log(10)[H+] = - log(10)Ka[HA] / [A-] By algebraic manipulation of log. pH = -log[A-]^-1 - logKa - log[HA] pH = log[A-] - logKa - log[HA] pH = pKa - log[HA]/[A-]
Hollywood Movie... DIL TO PAGAL HA