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Migration of aminoalcohols on paper
JOURNAL
,WG~TION HOWARD, Departrae~zt
OF CHROMATOGRAPHY
OF AMINOALCOHOLS
I<. ZIMMERMAN of Chemistry,
*
l
AND
Agricdtzrral
College
Statiou,
(Received
77
ON PAPER*
ALEXANDROS and Mecha~~ical
Texas
April qth,
(U.S.A
COSMATOS College of Texas,
.)
1961)
Ekcegtfka~ number of.‘investigations associated with specific biochemical problemsl, t&ret aEEears; to 1be.little information about the paper chromatography of aminoalo~liokimgeneral~.Thusj although mono-, di- and tri-ethanolamines have been separated omamiomexchange colimx+; the most comprehensive reports of this type yet appearing iin &lie:literature. seem: to’ be those on aminoalcohols derived from amino acids?, on ~~~~ooBlie~y~~l~o~~ohols derived from amino acids3+, and on aminoalcohols mlkizedlto~adkenaline~i.Confronted with a continuing need for information about the r.ni&&iomproperkies-of! atwide variety of aminoalcohols on paper, we have determined B&~valhes ii11tliree.different solvent systems for the aminoalcohols given in Table I. Niierous; variations. in the migration properties are noted with changes in B&&I sol?ven~~ system: and aminoalcohol structure. For example, solvent I3 gives extiensi&tailiirgoofi‘thetspots in rnany.cases, sometimes-leading to a diffuseness of spot v&i~makes&s’-‘-‘-‘-‘-‘-‘-‘-‘-‘-‘-’_esence very diffknlt. to detect. On the other hand, solvent A has a ~~o~tOJgrOdCe~~ateral.di~ion of the spot, with similar though less pronounced effbat!s;omsensitiiti~ofi detection;: this tendency is compensated at least in part by a nelWkel.&- slow- rate’ ofi migration and a correspondingly good sensitivity to aminoaikohollst~~cture;. Solution: C- gives very good, coherent spots, but the migration is aorng~~~e~y-rapid~.leading to poorer separations than might be desired for certain miMiurest. Tit& e_xtxeme& rapid: migration of N-phenyl-ethanolamine derivatives, (comBo.~~g;,26;andi38)!is-especially noticeable in solvents A and C, and a similar behavior ~~o~B~se~lliFu~e.o-aminophenols (compounds 67, 68 and 69). A comparison of the &&4iies; off t&e N&substituted diethanolamines (compounds z-g) with those of the Bknonosubstitxtted ethanolamines (compounds 21-26) reveals a ..practically linear nelkt&~~j~imalllthreesolvent systems..This dependence of the migration rate on the rn&un~off tlie~nitxogensubstituent remains the most apparent feature.of all the data v&.iizkliax~beemobtainedl.It thus appears that the migration rates of aminoalcohols amq#inanil$-aontiolledbythe prevailing balance between the basicity of the amino~olkz.ndltha~ofthe:solvent system. “V&r& supported! by- U.S. Army Research Office (Durham), by the U.S. National Science, Etiund&ti&~;, andt by. the. Robert ,A. Welch Foundation. ““Rmsentaddtess::Dept. of Chemistry, University of the Pacific, Stockton, Calif., U.S.A. Chro-matog.,
7 (1962) 77-h
e 3
_.
-c-cc
-
f _.
PI,
_
t
ea.
_. u?_
U
s OS ;
0 e 0 $
5
$0
46 47 4s 49
45
.
.
3-Diethylamino-1-propanol q-Amino-1-butanol r-Methyl-4-diethylamino-r-butanol 5-Amino-r-pentanol (i-Amino-1-hexanol
.
,
I-Phenyl-2-methyl-ethanolamine I-Phenyl-2,2-dimethyl-ethanolamine i-Phenyl-+methyl-N-methylethanolamine I-Phenyl-2-methyl-N,N-dimethylethanolamine 2-Ethyl-ethanolamine
41 42 43
z,2-Dimethyl-ethanolamine 2-Pyridyl-methyl-phenyl-carbinol 2-Pyridvl-diphenyl-carbinol fl-(2-Py&lyl)-ethanol 3-Amino-I-propanol
p-(4-Methyl-1-piperazino)-ethanol @-(N-iVorpholino)-ethanol N:Ethyl-N-phenyl-ethanolamine N-(2-Aminoethyl)-ethanolamine 1,4~Bis-(n-hydroxyethyl)-piperazine
36 37 38 39 4o
44
fl-(2-Heptadkcenyl-I-imidazolino)-ethanol
35
H,N(CH&OH H&CH&OH
(C,H,),N(CH,),CH(CHdOH
H,N(CH,),OH
(C,H,)21\‘(CH,) ,OH
3.95
1.21
2.10
0.57 0.32 0.38
o-44 0.24
-
1.00
I.SI
2.22
0.88 0.58
0.71
3.00 I -68 2.00
2-75
o.s3 0.46
2.32 I .26
2.60 I.44
2.s2
0.70 0.90
I *33
1.2s 1.13 1.46 1.22
1.02
(contthrd on p. 80)
‘0.72
0.79 0.66
0.61
0.69
0.76
0.87
1130 1.61 1.41 -
1.32 0.71
2.38 0.76 1.sg
0.70
1.63
o.S8 2.68 0.56
2.18
I.65
2.90
1.67
o.sg 2.7s
o.sg
1.61
1.02
o.s7
I.24 -
I.Ij
3.00
4.95 0.72
2.75 2.68
I.34
0.47 o-55
1.00 I.25
2.88
0.62 0.67
1.76
I.Gj
1.26 I.33 1.50
I,J3 I,24 I.33 1.5’
3,
0.87 0.90
o-94
0.24
2.1s 2.10
0.95
g
0.88 0.86
0.40 o-43
0.70 0.67 0.92
2.90
o.sg
0.81
2.82 2.8s
0.72
0.66
o,6r 0~67 0.72 0.82
‘144 2.62
2.47 -
5
o,qr
2-79 3.10
0:6i
1.63 %
3.26
o-35
H2NCH(C,H,)CH20H
0.92
2.84
0.93
0.84 0.90
4-05
0.78
I ,63
“;I9
o;‘t3
2.10
0.40 0.62
o-55
(CH&NCH(CH,)CH(C,H,)OH
H,NC(CH,),CH,OH (C,H,N)C(CH,) (C,H,)OH (C,H,N)C(C,H,),OH (C,H,N)CH,CH,OH H2N(CH,),0H
o-53 o-59 o-57
0.91 0.13 0.13
H,NCH(CHJCti(C,HJOH H,NC(CH,),CH(C,H,)OH CH,NHCH(CH,)CH(C,HJOH
[(CH,)2NCH,CH,0Hl,
CH,N(CH&NCH&H,OH O(CH,),NCH,CH,OH C,HjN(CaH,)CH,Clj,OH H,N(CH2)2NHCH,CH,0H 0.23 0.31
o-77
LH, \ NH-CH-C,,H,, CH,-N-CH,CH,OH c/H, \ NH-CH&H,
0.31 0.40 0.54 0.75
(CH,),NCH,CH&)H (CH&,NCH&H,OH CH,CH(CH,),NCH,CH,OH CH,-N-CH,CH,OH
3.10
0.59
~-(N-P~rl70lidino)-ctbanol 32 /l-(N-Pipcridino)-ethanol 33 /?-(4-Mcthylhexamcthylenimino)-ethanol 34 fl-(a-Undecyl-I-imidazolino)-ethanol
31
I,63 I.79
28 N-Methyl-N-ethyl-cthanolaminc 29 N,N-Dicthyl-cthanolaminc 3Q N,N-Diallyl-cthanolaminc
1.42
a.27 Q,31 0.34
(CH,),NCH,CH,OH C,H,N(CH,)CH,CH,OH (C,H&NCH,CH,OH (CH,=CHCH,),NCH,CH,OH
27 N;NgUimotbyl-cthanalaminc
!?
2
x-Dicthylamino-3-amino-qropanol
r,3-Diamino-:!-propanol
IH - C&-l k-1
* R, refers to ethanolamine. **MOspot could be detected.
+Chloro-2-aminophenol 2
036
4.52
4$
0.87
q-Vitro-2-aminophcnol
O,N’A”NH,
3.42
0.37 2.26
I,11
1.11
0.6=j
0.43
0.07
(H,NCH,),CHOH [(CH,) $CH&(C&W’Hl~
O,?I
0.21
H,N(CH,)pMHCH,CHOHCH,
(C,H,),NCH,C~~~OH)CaH,I\‘H,
’ OH
2.42
I.37
o-Aminophenol
2,3-butancdiol
66 1,4-Bis-(dimcthylaminoj-q-diphcnyl-
65
64 N-(z-Aminoethyl)-isopropanolaminc
63
62
0.46
0.3?
(CH,),NCH,CHOHCH, CH,CHCH, \ CH,CHCH,N/ NCH,CHCH,
r,4-Bis+-hydrbxypropylj-2methyl-piperazinc
I.68
O.GG
C,H,,NHCH,CHOHCH,
KCyclohcxyl-isopropanolaminc
60
61
3.47
0.26
H,NCH,CHOHCH,
Isopropanolaminc
59
I.95
0.37
HN(CH,CHOHCHs),
Di-isopropanolamitlc
58
2.36
0.45
N(cHpcHoHcH3)~
0.90
0.17
Tri=isopropnnolaminc
I (~0tthttt~d)
57
56 Dihydroxymcthyl-cthylcncdiamino
*mm
o.s7
O.jS
o.so
o.s7
0.40
o*57
0.77
0.85
**
0.89
0.52
0.72
**
0.36
0.87
2.78
2.72
I.SI
2.ga
2.70
1.2j
1.7s
2.40
2.66
I .oo
1.00
1.00
0.85
0.39
0.52
0.50
0.78
Ohj
Oh0
1.G3
-
0.75
0.81
wi8
2.2j
-
1.12
-
-
-
I .58
0.72
0.96
0.93
I.?0
1.61
’ .39 1.11
’ *so
1.07
The solvent Solvent Solvent Solvent
systems ,emp;loyed :are iwe’llknos~ cones-MEidh lha_e l’bean u~5&ilk%xe:: A : .rtLButandl,;z.y*%:: :acetiicadid, 6(x:: \araltrer;, qcyO (@&. 7). B : ,tz-Butan~l:sa~ura~ed kitih (o.~~‘pj/~ zqne~us m ((k&f.“)>.. C: Pyridine, .q2’0/,:: :.etil@ :ac&a%e q’pi/O:: matier;,a<$$$:: aa&tiicti& 8@& (ref. ,‘). Whatman No. I .paper Iwas spotied kiI& meIiha~n&ic~dlultiimns&E t&e .SEAT~ aminoalcohols I :in. :from ithe ibottom &;a s’heet GJL_~S iin. ti& llxy~8351~ l.@@. YKken take spots were dry, ,theLsheet ~~was:sta.,lediinto:ac&lixu?ler;, zu&&ti.ixktr~~adliklhn&li&~ za glass plate and containing :the sdlvent. Xlhe \whde :assenBlywas co~~xex&iky:aand sealed at the base with kla8y. %Vit%sdltitiions 2k z&iiB,, ttIhenn&~attiimn~ ~I&DX&I to proceed 4 h. With solution C, ~~x+liidh rmo;r;red xnoxe n;a@i~y, nk&Miion JIB q after 3 h. Upon removal Iof rfhe pa.per q%in~er,, Whe &k&t fbn~mtasmxm&&i~ still wet. After air-drying, &he $heet was :qpr;rq\yed wsiitlIh NIL@‘?&&&r#h& iin ~f::lf pyridine-ethanol and :heated :s miin :a? IEQ~ O!kolbti~~gcati ttke &kxr cti ttlhe.q@k.
The mieation of ‘69 aminotilcdhdls con%Mha%manNa. IIpalper Ihaskeen && ‘- liniim three different develqping. sdlvent-s.‘Xhe:genel;a!l lb6hatim toffttihe ~~~~Q~~q@ksikm t&e .. three solvents .is indicated. ‘VaGa$ions iin xrii~ation n;atieskittlh~ndlmmIl e tics of the aniinoalcdho’ls:are Ibtii&Iy(discusse5,l.
,WG~TION HOWARD, Departrae~zt
OF CHROMATOGRAPHY
OF AMINOALCOHOLS
I<. ZIMMERMAN of Chemistry,
*
l
AND
Agricdtzrral
College
Statiou,
(Received
77
ON PAPER*
ALEXANDROS and Mecha~~ical
Texas
April qth,
(U.S.A
COSMATOS College of Texas,
.)
1961)
Ekcegtfka~ number of.‘investigations associated with specific biochemical problemsl, t&ret aEEears; to 1be.little information about the paper chromatography of aminoalo~liokimgeneral~.Thusj although mono-, di- and tri-ethanolamines have been separated omamiomexchange colimx+; the most comprehensive reports of this type yet appearing iin &lie:literature. seem: to’ be those on aminoalcohols derived from amino acids?, on ~~~~ooBlie~y~~l~o~~ohols derived from amino acids3+, and on aminoalcohols mlkizedlto~adkenaline~i.Confronted with a continuing need for information about the r.ni&&iomproperkies-of! atwide variety of aminoalcohols on paper, we have determined B&~valhes ii11tliree.different solvent systems for the aminoalcohols given in Table I. Niierous; variations. in the migration properties are noted with changes in B&&I sol?ven~~ system: and aminoalcohol structure. For example, solvent I3 gives extiensi&tailiirgoofi‘thetspots in rnany.cases, sometimes-leading to a diffuseness of spot v&i~makes&s’-‘-‘-‘-‘-‘-‘-‘-‘-‘-‘-’_esence very diffknlt. to detect. On the other hand, solvent A has a ~~o~tOJgrOdCe~~ateral.di~ion of the spot, with similar though less pronounced effbat!s;omsensitiiti~ofi detection;: this tendency is compensated at least in part by a nelWkel.&- slow- rate’ ofi migration and a correspondingly good sensitivity to aminoaikohollst~~cture;. Solution: C- gives very good, coherent spots, but the migration is aorng~~~e~y-rapid~.leading to poorer separations than might be desired for certain miMiurest. Tit& e_xtxeme& rapid: migration of N-phenyl-ethanolamine derivatives, (comBo.~~g;,26;andi38)!is-especially noticeable in solvents A and C, and a similar behavior ~~o~B~se~lliFu~e.o-aminophenols (compounds 67, 68 and 69). A comparison of the &&4iies; off t&e N&substituted diethanolamines (compounds z-g) with those of the Bknonosubstitxtted ethanolamines (compounds 21-26) reveals a ..practically linear nelkt&~~j~imalllthreesolvent systems..This dependence of the migration rate on the rn&un~off tlie~nitxogensubstituent remains the most apparent feature.of all the data v&.iizkliax~beemobtainedl.It thus appears that the migration rates of aminoalcohols amq#inanil$-aontiolledbythe prevailing balance between the basicity of the amino~olkz.ndltha~ofthe:solvent system. “V&r& supported! by- U.S. Army Research Office (Durham), by the U.S. National Science, Etiund&ti&~;, andt by. the. Robert ,A. Welch Foundation. ““Rmsentaddtess::Dept. of Chemistry, University of the Pacific, Stockton, Calif., U.S.A. Chro-matog.,
7 (1962) 77-h
e 3
_.
-c-cc
-
f _.
PI,
_
t
ea.
_. u?_
U
s OS ;
0 e 0 $
5
$0
46 47 4s 49
45
.
.
3-Diethylamino-1-propanol q-Amino-1-butanol r-Methyl-4-diethylamino-r-butanol 5-Amino-r-pentanol (i-Amino-1-hexanol
.
,
I-Phenyl-2-methyl-ethanolamine I-Phenyl-2,2-dimethyl-ethanolamine i-Phenyl-+methyl-N-methylethanolamine I-Phenyl-2-methyl-N,N-dimethylethanolamine 2-Ethyl-ethanolamine
41 42 43
z,2-Dimethyl-ethanolamine 2-Pyridyl-methyl-phenyl-carbinol 2-Pyridvl-diphenyl-carbinol fl-(2-Py&lyl)-ethanol 3-Amino-I-propanol
p-(4-Methyl-1-piperazino)-ethanol @-(N-iVorpholino)-ethanol N:Ethyl-N-phenyl-ethanolamine N-(2-Aminoethyl)-ethanolamine 1,4~Bis-(n-hydroxyethyl)-piperazine
36 37 38 39 4o
44
fl-(2-Heptadkcenyl-I-imidazolino)-ethanol
35
H,N(CH&OH H&CH&OH
(C,H,),N(CH,),CH(CHdOH
H,N(CH,),OH
(C,H,)21\‘(CH,) ,OH
3.95
1.21
2.10
0.57 0.32 0.38
o-44 0.24
-
1.00
I.SI
2.22
0.88 0.58
0.71
3.00 I -68 2.00
2-75
o.s3 0.46
2.32 I .26
2.60 I.44
2.s2
0.70 0.90
I *33
1.2s 1.13 1.46 1.22
1.02
(contthrd on p. 80)
‘0.72
0.79 0.66
0.61
0.69
0.76
0.87
1130 1.61 1.41 -
1.32 0.71
2.38 0.76 1.sg
0.70
1.63
o.S8 2.68 0.56
2.18
I.65
2.90
1.67
o.sg 2.7s
o.sg
1.61
1.02
o.s7
I.24 -
I.Ij
3.00
4.95 0.72
2.75 2.68
I.34
0.47 o-55
1.00 I.25
2.88
0.62 0.67
1.76
I.Gj
1.26 I.33 1.50
I,J3 I,24 I.33 1.5’
3,
0.87 0.90
o-94
0.24
2.1s 2.10
0.95
g
0.88 0.86
0.40 o-43
0.70 0.67 0.92
2.90
o.sg
0.81
2.82 2.8s
0.72
0.66
o,6r 0~67 0.72 0.82
‘144 2.62
2.47 -
5
o,qr
2-79 3.10
0:6i
1.63 %
3.26
o-35
H2NCH(C,H,)CH20H
0.92
2.84
0.93
0.84 0.90
4-05
0.78
I ,63
“;I9
o;‘t3
2.10
0.40 0.62
o-55
(CH&NCH(CH,)CH(C,H,)OH
H,NC(CH,),CH,OH (C,H,N)C(CH,) (C,H,)OH (C,H,N)C(C,H,),OH (C,H,N)CH,CH,OH H2N(CH,),0H
o-53 o-59 o-57
0.91 0.13 0.13
H,NCH(CHJCti(C,HJOH H,NC(CH,),CH(C,H,)OH CH,NHCH(CH,)CH(C,HJOH
[(CH,)2NCH,CH,0Hl,
CH,N(CH&NCH&H,OH O(CH,),NCH,CH,OH C,HjN(CaH,)CH,Clj,OH H,N(CH2)2NHCH,CH,0H 0.23 0.31
o-77
LH, \ NH-CH-C,,H,, CH,-N-CH,CH,OH c/H, \ NH-CH&H,
0.31 0.40 0.54 0.75
(CH,),NCH,CH&)H (CH&,NCH&H,OH CH,CH(CH,),NCH,CH,OH CH,-N-CH,CH,OH
3.10
0.59
~-(N-P~rl70lidino)-ctbanol 32 /l-(N-Pipcridino)-ethanol 33 /?-(4-Mcthylhexamcthylenimino)-ethanol 34 fl-(a-Undecyl-I-imidazolino)-ethanol
31
I,63 I.79
28 N-Methyl-N-ethyl-cthanolaminc 29 N,N-Dicthyl-cthanolaminc 3Q N,N-Diallyl-cthanolaminc
1.42
a.27 Q,31 0.34
(CH,),NCH,CH,OH C,H,N(CH,)CH,CH,OH (C,H&NCH,CH,OH (CH,=CHCH,),NCH,CH,OH
27 N;NgUimotbyl-cthanalaminc
!?
2
x-Dicthylamino-3-amino-qropanol
r,3-Diamino-:!-propanol
IH - C&-l k-1
* R, refers to ethanolamine. **MOspot could be detected.
+Chloro-2-aminophenol 2
036
4.52
4$
0.87
q-Vitro-2-aminophcnol
O,N’A”NH,
3.42
0.37 2.26
I,11
1.11
0.6=j
0.43
0.07
(H,NCH,),CHOH [(CH,) $CH&(C&W’Hl~
O,?I
0.21
H,N(CH,)pMHCH,CHOHCH,
(C,H,),NCH,C~~~OH)CaH,I\‘H,
’ OH
2.42
I.37
o-Aminophenol
2,3-butancdiol
66 1,4-Bis-(dimcthylaminoj-q-diphcnyl-
65
64 N-(z-Aminoethyl)-isopropanolaminc
63
62
0.46
0.3?
(CH,),NCH,CHOHCH, CH,CHCH, \ CH,CHCH,N/ NCH,CHCH,
r,4-Bis+-hydrbxypropylj-2methyl-piperazinc
I.68
O.GG
C,H,,NHCH,CHOHCH,
KCyclohcxyl-isopropanolaminc
60
61
3.47
0.26
H,NCH,CHOHCH,
Isopropanolaminc
59
I.95
0.37
HN(CH,CHOHCHs),
Di-isopropanolamitlc
58
2.36
0.45
N(cHpcHoHcH3)~
0.90
0.17
Tri=isopropnnolaminc
I (~0tthttt~d)
57
56 Dihydroxymcthyl-cthylcncdiamino
*mm
o.s7
O.jS
o.so
o.s7
0.40
o*57
0.77
0.85
**
0.89
0.52
0.72
**
0.36
0.87
2.78
2.72
I.SI
2.ga
2.70
1.2j
1.7s
2.40
2.66
I .oo
1.00
1.00
0.85
0.39
0.52
0.50
0.78
Ohj
Oh0
1.G3
-
0.75
0.81
wi8
2.2j
-
1.12
-
-
-
I .58
0.72
0.96
0.93
I.?0
1.61
’ .39 1.11
’ *so
1.07
The solvent Solvent Solvent Solvent
systems ,emp;loyed :are iwe’llknos~ cones-MEidh lha_e l’bean u~5&ilk%xe:: A : .rtLButandl,;z.y*%:: :acetiicadid, 6(x:: \araltrer;, qcyO (@&. 7). B : ,tz-Butan~l:sa~ura~ed kitih (o.~~‘pj/~ zqne~us m ((k&f.“)>.. C: Pyridine, .q2’0/,:: :.etil@ :ac&a%e q’pi/O:: matier;,a<$$$:: aa&tiicti& 8@& (ref. ,‘). Whatman No. I .paper Iwas spotied kiI& meIiha~n&ic~dlultiimns&E t&e .SEAT~ aminoalcohols I :in. :from ithe ibottom &;a s’heet GJL_~S iin. ti& llxy~8351~ l.@@. YKken take spots were dry, ,theLsheet ~~was:sta.,lediinto:ac&lixu?ler;, zu&&ti.ixktr~~adliklhn&li&~ za glass plate and containing :the sdlvent. Xlhe \whde :assenBlywas co~~xex&iky:aand sealed at the base with kla8y. %Vit%sdltitiions 2k z&iiB,, ttIhenn&~attiimn~ ~I&DX&I to proceed 4 h. With solution C, ~~x+liidh rmo;r;red xnoxe n;a@i~y, nk&Miion JIB q after 3 h. Upon removal Iof rfhe pa.per q%in~er,, Whe &k&t fbn~mtasmxm&&i~ still wet. After air-drying, &he $heet was :qpr;rq\yed wsiitlIh NIL@‘?&&&r#h& iin ~f::lf pyridine-ethanol and :heated :s miin :a? IEQ~ O!kolbti~~gcati ttke &kxr cti ttlhe.q@k.
The mieation of ‘69 aminotilcdhdls con%Mha%manNa. IIpalper Ihaskeen && ‘- liniim three different develqping. sdlvent-s.‘Xhe:genel;a!l lb6hatim toffttihe ~~~~Q~~q@ksikm t&e .. three solvents .is indicated. ‘VaGa$ions iin xrii~ation n;atieskittlh~ndlmmIl e tics of the aniinoalcdho’ls:are Ibtii&Iy(discusse5,l.