Table 3.
The coefficients (mmol/g CDW) used in the biomass equation of the T. reesei model
| Kegg Id | Compound name | Coefficient |
|---|---|---|
| C00133 | Alanine | −0.382a |
| C00062 | Arginine | −0.253a |
| C00152 | Asparagine | −0.141a |
| C00049 | Aspartate | −0.233a |
| C00097 | Cysteine | −0.053a |
| C00064 | Glutamine | −0.161a |
| C00025 | Glutamate | −0.248a |
| C00037 | Glycine | −0.289a |
| C00135 | Histidine | −0.098a |
| C00407 | Isoleucine | −0.193a |
| C00123 | Leucine | −0.362a |
| C00047 | Lysine | −0.202a |
| C00073 | Methionine | −0.092a |
| C00079 | Phenylalanine | −0.151a |
| C00148 | Proline | −0.243a |
| C00065 | Serine | −0.322a |
| C00188 | Threonine | −0.233a |
| C00078 | Tryptophan | −0.061a |
| C00082 | Tyrosine | −0.113a |
| C00183 | Valine | −0.254a |
| C06424 | Myristic acid | −0.00015b |
| C08362 | Palmitoleic acid | −0.00043b |
| C06427 | −Linolenic acid | −0.01b |
| C00219 | Arachidic acid | −0.00013b |
| C08320 | Lignoceric acid | −0.00014b |
| C00249 | Palmitic acid | −0.026c |
| C01530 | Stearic acid | −0.003c |
| C00712 | Oleic acid | −0.008c |
| C01595 | Linoleic acid | −0.061c |
| C01694 | Ergosterol | −0.007d |
| C00093 | Glycerol−3−P | −0.04e |
| C00588 | Phosphocholine | −0.014e |
| C00346 | Phosphoethanolamine | −0.007e |
| C00031 | d−Glucose | −0.385f |
| C00140 | N-acetyl-d-glucosamine | −0.948f |
| C00360 | Deoxyadenosine monophosphate | −0.007g |
| C00239 | Deoxycytidine monophosphate | −0.008g |
| C00362 | Deoxyguanosine monophosphate | −0.008g |
| C00364 | Deoxythymidine monophosphate | −0.007g |
| C00020 | Adenosine-monophosphate | −0.047h |
| C00055 | Cytidine monophosphate | −0.045h |
| C00144 | Guanosine monophosphate | −0.053h |
| C00105 | Uridine monophosphate | −0.045h |
| C00001 | Water | −59.276i |
| C00002 | Adenosine triphosphate | −59.276i |
| C00008 | Adenosine diphosphate | 59.276i |
| C00009 | Organic phosphorous | 59.305i |
| C00059 | Sulfate | −0.02i |
| C00255 | Riboflavin | −0.001i |
| C00010 | Coenzyme A | −0.000001j |
| C00003 | Nicotinamide adenine dinucleotide (NAD) | −0.000001j |
| C00016 | Flavin adenine dinucleotide (FAD) | −0.000001j |
| C00051 | Glutathione | −0.000001j |
| C00101 | tetrahydrofolate | −0.000001j |
| C00575 | 3′,5′-cyclic AMP | −0.000001j |
| C00096 | GDP-mannose | −0.000001j |
| C01083 | ,-Trehalose | −0.000001j |
The coefficients correspond to the measured or estimated molar amounts of the compound in the cells, as described in "Methods" section
aThe amount of amino acids calculated based on the measured cellular protein and the ratio of amino acids in cellular proteins calculated based on the codon abundancy in the RNAseq data of transcriptome
b Esterified fatty acid measured using GC-MS
c Sum of measured esterified and free fatty acid measured using GC-MS
d Measured using GC-MS
e The amount estimated to be needed for synthesis of triacylglycerols, phophatidylethanolamines or phosphatidylcholines (1 mol of glycerol-3-P, phosphoethanolamine or phosphocholine per 1 mol of triacylglycerol, phosphatidylethanolamine or phosphatidylcholine, respectively)
f The measured total carbohydrate was assumed to consist of polymers of d-glucose subunits (glucan) and polymers of N-acetyl-d-glucosamine (chitin). Chitin content of the cells was estimated based on the amount of chitin in Aspergillus oryzae [8], and the rest of the measured carbohydrate as glucan
g The amount of deoxyribonucleotides in DNA calculated based on the cellular DNA amount and the GC content of the genome
h The amount of ribonucleotides in RNA was estimated based on the measured total RNA amount the nucleotide ratio in genome region encoding ribosomal 18S-28S pre-rRNA
i As in S. cerevisiae model iMM904 [42]
j Trace amount of the compound was added