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Chapter 10: Q37P (page 232)

10-37. Which four amino acids in Table 10-1have acidic substituents (that donate a proton) and which three have basic substituents (that accept a proton)?

Short Answer

Expert verified

Acidic substituents that donate a proton and Basic substituents that accept a proton are given.

Step by step solution

01

Derivation of acidic and basic substituents.

  • Proteins are made up of amino acids that have an acidic carboxylic acid group, a basic amino group, and a variable substituent called R.

  • Because the carboxyl group is more acidic than the ammonium group, the nonionized form spontaneously rearranges to the zwitterion, which has both positive and negative sites

02

Determining the acidic and basic substituents.

In this problem we will determine which four amino acids from Table 10-1 have acidic substituents and which three have basic substituents.

Acidic substituents

Acidic substituents that donate a proton are given below:

  • aspartic acid

  • cysteine

  • glutamic acia

  • tyrosine

Basic Substituents

Basic substituents that accept a proton are given below:

  • arginine

  • histidine

  • tysine

Therefore the acidic and basic substituents are found.

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Most popular questions from this chapter

Calculate the pH of 0.300Mpiperazine. Calculate the concentration of each form of piperazine in this solution.

Find the pH and the concentration of each species of lysine in a solution of 0.0100 M lysine? HCl, lysine monohydrochloride. The notation “lysine? HCl” refers to a neutral lysine molecule that has takenon one extra proton by addition of one mole of HCl. A more meaning-

ful notation shows the salt (lysineH1)(C12) formed in the reaction..

CO2(g)𝆏CO2(aq)KH=[CO2aq]PCO2=10-1.2073molkg-1bar-1at0C=10-1.6048molkg-1bar-1at30CCO2(aq)+H2O𝆏HCO3-+H+Ka1=[HCO3-][H+][CO2aq]=10-6.1004molkg-1at0C=10-5.8008molkg-1bar-1at30CHCO3-𝆏CO32-+H+CaCO3(S,aragonite)𝆏Ca2++CO3-2Ksparg=[Ca2+][CO32-]=10-6.1113mol2kg-2bar-2at0C=10-6.1391mol2kg-2bar-2at30CCaCO3(s,calcite)𝆏Ca2++CO3-2kspcal=[Ca2+][CO32-]=10-6.3652mol2kg-2bar-2at0C=10-6.3713mol2kg-2bar-2at30CEffect of temperature on carbonic acid acidity and the solubility of localid="1654949830957" CaCO3×14Box10-1states that marine life withlocalid="1654949841354" CaCO3shells and skeletons will be threatened with extinction in cold polar waters

before that will happen in warm tropical waters. The following equilibrium constants apply to seawater at0ndlocalid="1654949866125" 30C, when concentrations are measured in moles per kilogram of seawater and pressure is in bars:

localid="1654951136007" CO2g𝆏CO2aqKH=CO2aqPCO2=10-1.2073molkg-1bar-1at0C=10-1.6048molkg-1bar-1at30CCO2aq+H2O𝆏HCO3-+H+Ka1=HCO3-H+CO2aq=10-6.1004molkg-1at0C=10-5.8008molkg-1bar-1at30CHCO3-𝆏CO32-+H+CaCO3S,aragonite𝆏Ca2++CO3-2Ksparg=Ca2+CO32-=10-6.1113mol2kg-2bar-2at0C=10-6.1391mol2kg-2bar-2at30CCaCO3s,calcite𝆏Ca2++CO3-2kspcal=Ca2+CO32-=10-6.3652mol2kg-2bar-2at0C=10-6.3713mol2kg-2bar-2at30C

The first equilibrium constant is calledlocalid="1654949908801" KHfor Henry's law (Problem 10-10). Units are given to remind you what units you must use.

(a) Combine the expressions forlocalid="1654949922835" KH,K21, andlocalid="1654949935065" K22to find an expression forlocalid="1654949944862" [CO3-2]in terms oflocalid="1654949958224" PCO2andlocalid="1654949971486" [H+].

(b) From the result of (a), calculatelocalid="1654949980228" [CO32-](molkg-1)atlocalid="1654950000228" pCO2=800μbar and pH=7.8 at temperatures oflocalid="1654950013597" 0(polar ocean) andlocalid="1654950030147" 30C(tropical ocean). These are conditions that could possibly be reached around the year 2100 .

(c) The concentration oflocalid="1654950042348" Ca2+in the ocean islocalid="1654950053646" 0.010M. Predict whether aragonite and calcite will dissolve under the conditions in (b).

The both [H2A]=[HA]are equal as found to be pH=10.54

(a) Calculate the quotient in [H3PO4]/[H3PO-4]in0.0500MKH2PH4.

(b) Find the same quotient for 0.0500MK2PO4.
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