. Author manuscript; available in PMC: 2012 Jul 1.

Published in final edited form as: J Proteome Res. 2011 Jun 14;10(7):3261–3273. doi: 10.1021/pr200290x

Table 2.

Summary of the numbers of proteins, reactions, and connected reactions in KEGG metabolic pathways predicted from the genome sequence and MS/MS identified proteins (Pathways with many predicted proteins but low connectivity are shaded).

Metabolism	Metabolic pathway/ cellular process	Genomics Prediction			All proteomic data			OD 0.7			OD 1.2			OD 0.7 versus OD 1.2 ^b

		# predicted proteins	# Reactions	# Connected reactions ^a	#MS identified proteins (# single hit proteins)	% identified proteins	# Connected reactions with identified proteins ^a	#MS identified proteins (# single hit proteins)	% identified proteins	# Connected reactions with identified proteins ^a	#MS identified proteins (# single hit proteins)	% identified proteins	# Connected reactions with identified proteins ^a	# proteins in OD 0.7 only	# proteins with ≥ 3X Peptides identified in OD 0.7	# proteins with ≥ 3X Peptides identified in OD 1.2	# proteins in OD 1.2 only
Carbohydrates	Glycolysis/ Gluconeogenesis ^*	65	27	27	44(6)	67.7	23	42(5)	64.6	21	44(6)	67.7	23	0	2	0	1
	Citrate cycle (TCA cycle) ^*	29	17	16,1	24(1)	82.8	15,1	24(1)	82.8	15,1	23(1)	79.3	15,1	1	1	0	0
	Pentose phosphate pathway ^*	24	17	8,9	20(4)	83.3	8,6,2	20(4)	83.3	8,6,2	18(3)	75.0	7,6,1	1	0	1	0
	Fructose and mannose metabolism ^*	22	14	8,4,1,1	13(2)	59.1	6,4	13(2)	59.1	6,4	12(1)	54.5	5,4	0	0	0	0
	Starch and sucrose metabolism ^*	19	18	4,3,3, 3,2,1, 1,1	12(4)	63.2	3,3,3, 1,1	10(3)	52.6	2,2,1, 1,1	12(4)	63.2	3,3,3, 1,1	0	0	1	1
	Amino sugar and nucleotide sugar metabolism ^*	18	15	7,4,2,2	13(3)	72.2	6,2,2,2	9(0)	50.0	2,2,2, 2,1	13(3)	72.2	2,4,2, 2,2	0	0	0	0
	Pyruvate metabolism ^*	44	19	19	34(1)	77.3	18	34(1)	77.3	17	34(1)	77.3	17	0	3	1	0
	Glyoxylate and dicarboxylate metabolism	15	11	9,1,1	10(0)	66.7	9,1	8(0)	53.3	4,4,1	10(0)	66.7	6.4	0	0	2	2
	Propanoate metabolism	38	11	7,2,1,1	32(0)	84.2	7,2,1,1	31(0)	81.6	5,2,1,1	32(0)	84.2	5,2,1,1	0	2	1	1
	Butanoate metabolism	46	14	4,3,2, 1,1,1, 1,1	36(1)	78.3	4,3,2, 1,1	36(1)	78.3	4,3,2, 1,1	34(1)	73.9	4,3,2,1	2	4	2	0

Energy	Nitrogen metabolism ^*	30	15	12,2,1	14(1)	46.7	9,1	13(1)	43.3	9,1	13(0)	43.3	8,1	0	0	5	1

Lipids	Fatty acid metabolism ^*	48	27	4,4,3,3(×5),1	36(1)	75.0	4,4,3,3(×5),1	35(1)	72.9	4,4,3,3(×5),1	36(1)	75.0	4,4,3, 3(5),1	0	2	3	1
Lipids	Glycerolipid metabolism	12	4	4	7(1)	58.3	2,1	6(0)	50.0	1,1	7(1)	58.3	2,1	0	0	1	0

Nucleotides	Purine metabolism ^*	64	54	49,1,1, 1,1,1,1	43(2)	67.2	32,5,1, 1,1	42(1)	65.6	32,5,1, 1,1	39(1)	60.9	30,5,1, 1,1,1	3	4	1	0
Nucleotides	Pyrimidine metabolism ^*	51	45	40,1,1, 1,1,1	38(4)	74.5	39,1,1	37(2)	72.5	39	38(4)	74.5	39,1,1	1	3	2	0

Amino Acids	Alanine, aspartate and glutamate metabolism ^*	25	17	17	19(2)	76.0	13	19(2)	76.0	13	17(0)	68.0	11	0	3	1	0
	Glycine, serine and threonine metabolism ^*	35	17	6,9,1,1	24(1)	68.6	9,6,1	23(1)	65.7	9,6,1	23(0)	65.7	8,6,1	0	2	4	1
	Cysteine and methionine metabolism ^*	19	19	12,4,1, 1,1	13(2)	68.4	8,3,4, 1,1	13(2)	68.4	8,3,4, 1,1	11(0)	57.9	6,3,2, 1,1,1	0	1	1	0
	Valine, leucine and isoleucine degradation ^*	40	24	4(×3),2(×3), 2,2,2	34(0)	85.0	4(×3),4,2(×3),2	33(0)	82.5	4(×3),4,2(×3),2	34(0)	85.0	4(3),4,2(3),2	0	1	3	1
	Valine, leucine and isoleucine biosynthesis ^*	25	24	24	22(2)	88.0	24	22(2)	88.0	24	20(1)	80.0	23	1	1	2	0
	Lysine biosynthesis ^*	16	15	8,4,3	13(2)	81.3	7,4,3	12(1)	75.0	7,3,3	13(2)	81.3	7,4,3	0	2	0	0
	Lysine degradation	27	6	2,2,1,1	23(0)	85.2	2,2,1,1	23(0)	85.2	2,2,1,1	23(0)	85.2	2,2,1,1	0	1	1	0
	Arginine and proline metabolism ^*	44	24	15,3,2, 1,1,1,1	28(4)	63.6	7,3,3, 2,1,1, 1,1	26(3)	59.1	6,3,3, 2,1,1, 1,1	26(2)	59.1	4,3,3, 3,1,1, 1,1	0	2	1	1
	Histidine metabolism ^*	25	15	7,7,1	15(0)	60.0	6,2,2, 1,1	14(0)	56.0	6,2,1, 1,1	15(0)	60.0	6,2,2, 1,1	0	1	1	1
	Tyrosine metabolism	24	6	2,1,1, 1,1	12(1)	50.0	1,1,1	11(1)	45.8	1,1,1	12(1)	50.0	1,1,1	0	2	1	1
	Tryptophan metabolism	33	10	2,2,2, 1,1,1,1	27(0)	81.8	2,2,1, 1,1,1,1	27(0)	81.8	2,2,1, 1,1,1,1	27(0)	81.8	2,2,1, 1,1,1,1	0	1	3	0
	Phenylalanine, tyrosine and tryptophan biosynthesis ^*	26	19	19	15(2)	57.7	12,2,1	15(2)	57.7	12,2,1	15(2)	57.7	12,2,1	0	3	1	0

Other Amino Acids	Beta-Alanine metabolism ^*	22	7	3,2,1,1	16(1)	72.7	3,2	15(0)	68.2	2,2	16(1)	72.7	3,2	0	0	1	0
Other Amino Acids	Selenoamino acid metabolism ^*	10	8	4,4	6(0)	60.0	3,3	6(0)	60.0	3,3	6(0)	60.0	3,3	0	0	0	0

Cofactors and Vitamins	Ubiquinone and other terpenoid-quinone biosynthesis	8	10	4,2,2, 1,1	3(1)	37.5	4,1,1	3(1)	37.5	4,1,1	3(1)	37.5	4,1,1	0	0	0	0
	One carbon pool by folate ^*	17	15	15	13(1)	76.5	12	10(1)	58.8	11	12(0)	70.6	11	0	0	4	3
	Thiamine metabolism ^*	9	8	6,2	5(0)	55.6	4,1	3(0)	33.3	3,1	5(0)	55.6	4,1	0	1	1	2
	Riboflavin metabolism ^*	5	5	4,1	3(1)	60.0	2,1	3(1)	60.0	2,1	3(1)	60.0	2,1	0	0	1	0
	Pantothenate and CoA biosynthesis	15	11	6,3,1,1	12(3)	80.0	5,3,1	10(1)	66.7	5,1	10(2)	66.7	5,3,1	1	0	0	0
	Folate biosynthesis	9	12	5,3,2, 1,1	3(1)	33.3	2,1,1	2(0)	22.2	1,1	3(1)	33.3	1,1,1	0	0	1	0
	Nicotinate and nicotinamide metabolism ^*	12	11	11	5(1)	41.7	7	4(0)	33.3	2,2,1	5(1)	41.7	7	0	1	0	0
	Porphyrin and chlorophyll metabolism ^*	25	32	15,7,6, 2,1,1	20(4)	80.0	8,7,4, 4,2,1	18(2)	72.0	8,7,3, 2,1,1, 1,1	17(3)	68.0	7,4,3, 1,1,1,1	2	0	0	0

Biosynthesis of Polyketides and Terpenoids	Terpenoid backbone biosynthesis ^*	14	11	4,3,3,1	11(0)	78.6	4,2,1	11(0)	78.6	4,2,1	11(0)	78.6	4,2,1	0	1	1	0
Biosynthesis of Polyketides and Terpenoids	Carotenoid biosynthesis	2	5	5	2(0)	100.0	5	2(0)	100.0	5	2(0)	100.0	5	0	0	0	0

Number of reactions within each “cluster of linked reaction(s)” separated by commas. Number in parenthesis indicates the number reaction cluster catabolized by the same enzyme(s).

The numbers included only the proteins with at least 2 unique peptide identifications.

Indicate the biomodules seemed to contain sufficient number of connected reactions (predicted proteins) to drive the functions.