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Table 1 Lipid composition of membranes under study

From: Native-like membrane models of E. coli polar lipid extract shed light on the importance of lipid composition complexity

Name

Lipid composition a

Tail composition b

SimplePOM

5% MPPO-CL

39% (P) 16:0

 

23% MMPG

37% (O) 18:1 cis9,10

 

72% POPE

24% (M) cy17:0 cis9,10

SimplePVJ

5% JPPV-CL

39% (P) 16:0

 

23% JJPG

37% (V) 18:1 cis11,12

 

72% PVPE

24% (J) cy17:0 cis11,12

SimplePVM

5% MPPV-CL

39% (P) 16:0

 

23% MMPG

37% (V) 18:1 cis11,12

 

72% PVPE

24% (M) cy17:0 cis19,10

Avanti

1.0% YPMN-CL

 
 

1.0% YPMV-CL

 
 

2.1% MPPV-CL

 
 

0.5% MPPM-CL

 
 

12.4% PMPG

 
 

2.1% PNPG

37.4% (P) 16:0

 

1.0% YVPG

28.0% (V) 18:1 cis11,12

 

4.1% PVPG

21.0% (M) cy17:0 cis9,10

 

2.1% PYPG

9.4% (Y) 16:1 cis9,10

 

14.5% YVPE

4.2% (N) cy19:0 cis11,12

 

17.6% PMPE

 
 

5.7% PNPE

 
 

8.8% MVPE

 
 

26.9% PVPE

 
  1. aMolecular fraction of individual lipids; b Percentage of lipid tails, shortcuts are given in brackets. CL cardiolipin, PG phosphatidylglycerol, PE phosphatidylethanolamine, P palmitoyl, Mcis-9,10-methylene-hexadecanoic-acid, Ncis-11,12-methylene-octadecanoic-acid, Ycis-11,12-octadecenoic-acid, V palmitoleic acid, O oleic acid, Jcis-11,12-methylene-hexadecanoic-acid. For chemical structure, see Additional file 1: Figs. S1-S3. The proportion of saturated, unsaturated, and cyclopropane-containing tails of both models represents equally well recent experiments [51, 67, 112]