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Introductions to Lysine in E.coli Metabolism Pathways. Group 9 張智宏 楊翊文 王翔昱

Introductions to Lysine in E.coli Metabolism Pathways. Group 9 張智宏 楊翊文 王翔昱. 2005.1.14. Outline. Describe the usage of Lysine. Process Find the metabolic pathways involved in the synthesis of the Lysine . Find the enzymes and genes involved in these pathway reactions .

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Introductions to Lysine in E.coli Metabolism Pathways. Group 9 張智宏 楊翊文 王翔昱

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  1. Introductions to Lysine in E.coli Metabolism Pathways.Group 9 張智宏 楊翊文 王翔昱 2005.1.14

  2. Outline Describe the usage of Lysine. Process Find the metabolic pathways involved in the synthesis of the Lysine . Find the enzymes and genes involved in these pathway reactions . Is E. Coli suitable for biosynthesis of Lysine ?

  3. Introductions to Lysin Query interface ... • Symbol : lys k , 離胺酸 • Molecular formula : C6H14N2O2 • Molecular weight : 146.19 • Isoelectric point (pH) : 9.59 • pKa values : 2.20, 8.90, 10.28 • CAS Registry Number : 56-87-1 • Type : lonic • Other Forms • L-lysine acetylsalicylate (LAS) • Lysine clonixinate (LC) • L-lysine monohydrochlorine (LMH)

  4. Introductions to Lysine H2N-(CH2)4-CH(NH2)-COOH Lysine under the microscope 3D Molecular Model

  5. Introductions to Lysine Discovered in 1989 . Lysine is incorporated into proteins at the rate of 7 percent on a molar basis compared to the other amino acids. The side chain of Lysine has three methylene groups, so that even though the terminal amino group will be charged under physiological conditions, the side chain does have significant hydrophobic character. Lysine is an essential amino acid that you must get from food because your body cannot make enough of it. Lysine helps your body process fatty acids, and it is particularly important for proper growth. Lysine helps your body absorb calcium, and it plays an important role in the formation of collagen, a substance important to your bones and tissues.

  6. Medical Information of Lysine Lysine is used to treat herpes infections caused by both herpes simplex and herpes zoster viruses. Taking lysine supplements can speed your recovery time and reduce chances of reinfection. Some studies have found lysine helpful in treating cardiovascular disease, osteoporosis, asthma, migraine, nasal polyps, and postepisiotomy pain. If you get too little lysine in your diet, your body may develop a poor nitrogen balance, and you may ultimately develop kidney stones. Signs of getting too little lysine include fatigue, nausea, dizziness, appetite loss, emotional agitation, bloodshot eyes, decreased immunity, slow growth, anemia, enzyme deterioration, reproductive disorders, pneumonia, and acidosis (a pH imbalance in the body). The most concentrated sources of lysine are torula yeast, dried and salted cod, Parmesan cheese, pork loin (excluding fat), dried and frozen tofu.

  7. Outline Describe the usage of Lysine. Process Find the metabolic pathways involved in the synthesis of the Lysine . Find the enzymes and genes involved in these pathway reactions . Is E. Coli suitable for biosynthesis of Lysine ?

  8. Process , What we have done http://www.genome.jp/kegg/ Click “ Ligand ” to enter query interface Query “Lysine” with “ name” function

  9. Process , What we have done Select the entry that match our desire: entry C00047 We are interested in Lysine biosynthesis, select the path map00300

  10. Process , What we have done

  11. Show the enzymes exist in E.Coli with green color

  12. Outline Describe the usage of Lysine. Process Find the metabolic pathways involved in the synthesis of the Lysine . Find the enzymes and genes involved in these pathway reactions . Is E. Coli suitable for biosynthesis of Lysine ?

  13. Find the metabolic pathways involved in the synthesis of the Lysine .

  14. Lysine Biosynthesis • (Alanine and Aspartate Metabolism) L-Asparate  2.7.2.4  • L-4-Aspartyl Phosphate  1.2.1.11  L-Aspartate 4-Semialdehyde • 4.2.1.52  2,3-Dihydrodipicolinate  1.3.1.26  • 2,3,4,5,-Tetrahydro-dipicolinate  2.3.1.117  • N-Succinyl-2-amino-6-oxopimelate  2.6.1.17  • N-Succinyl-L-2,6-diaminopimelate • 3.5.1.18  2,6-diominopimelate  5.1.1.7  meso-2,6-Diaminopimelate • 4.1.1.20  L-Lysine

  15. Alanine and Aspartate Metabolism • (Glycosis) Pyruvate Acetyl-Coa •  Cirate 2-Oxoglutarate • Succinate  Fumarate  4.3.1.1 L-Aspartate (Lysine Biosynthesis)

  16. D-Glucose 2.7.1.69 • α-D-Glucose-6p  5.3.1.9 • β-D-Fructose-6p • 2.7.1.11 • β-D-Fructose-1,6p2 • 4.1.2.13 • Glyceraldehyde-3p • 1.2.1.12 • Glycerate-1,3p2 • 3.6.1.7 (2.7.2.3) • Glycerate-3p • 5.4.2.1 • Glycerate-2p • 4.2.1.11 • Phosphoenolpyruvate • 2.7.1.40 • (Alanine and Aspartate Metabolism) Glycolysis

  17. Outline Describe the usage of Lysine. Process Find the metabolic pathways involved in the synthesis of the Lysine . Find the enzymes and genes involved in these pathway reactions . Is E. Coli suitable for biosynthesis of Lysine ?

  18. Lysine Biosynthesis Pathway EntryEC 2.3.1.117 ECO: b0166(dapD) Entry EC 2.6.1.17 ECO: b2379(yfdZ) Entry EC 3.5.1.18 ECO: b2472(dapE) Entry EC 5.1.1.7 ECO: b3809(dapF) Entry EC 4.1.1.20 ECO: b2838(lysA) Entry EC 2.7.2.4 ECO: b0002(thrA) b3940(metL) b4024(lysC) Entry EC 1.2.1.11 ECO: b3433(asd) Entry EC 4.2.1.52 ECO: b2478(dapA) Entry EC 1.3.1.26 ECO: b0031(dapB)

  19. Alanine and Aspartate Metabolism Pathway Entry EC 4.3.1.1 ECO: b4139(aspA) Name : aspartate ammonia-lyase aspartase fumaric aminase L-aspartase Definition : aspartate ammonia-lyase (aspartase)

  20. Glycosis Pathway Entry EC 2.7.1.69 ECO: b0129(yadI) b0679(nagE) b0731(hrsA) b1101(ptsG) b1621(malX) b1736(celC) b1738(celA) ….. Entry EC 5.3.1.9 ECO: b4025(pgi) Entry EC 2.7.1.11 ECO: b1723(pfkB) b3916(pfkA) Entry EC 4.1.2.13 ECO: b2097(dhnA)b2925(fba) Entry EC 1.2.1.12 ECO: b1416(gapC_2) b1417(gapC) b1779(gapA) Entry EC 2.7.2.3 ECO: b2926(pgk) Entry EC 5.4.2.1 ECO: b0755(gpmA)b3612(yibO) Entry EC 4.2.1.11 ECO: b2779(eno) Entry EC 2.7.1.40 ECO: b1676(pykF)b1854(pykA)

  21. Outline Describe the usage of Lysine. Process Find the metabolic pathways involved in the synthesis of the Lysine . Find the enzymes and genes involved in these pathway reactions . Is E. Coli suitable for biosynthesis of Lysine ?

  22. Is E. Coli suitable for biosynthesis of Lysine ? • Methylotrophs, microorganisms that use reduced one-carbon compounds, are diverse and ubiquitous. Even though many methylotrophs have been described, only a few are gram positive. The industrial advantages of using methanol as a substrate for large-scale production of fermentation products have been outlined by other groups. Methanol is relatively inexpensive, prices are relatively stable, production exceeds demand, and it is easily stored and transported. In addition, methanol is available in pure form, it is highly soluable in water, methanol solutions are not explosive, and residual methanol can be easily removed from products after fermentation is completed. Bacillus species have been used extensively in industrial fermentation processes

  23. Second PartUsing Linear program

  24. Our goal is to maximize the quantity of Lysine by using Linear program. • 1129 biochemical reactions and 1177 compounds of E.Coli are parsed to obtain the coefficient matrix • In the solution X each xi denotes the percentage of each reaction.

  25. Resource • 1129 biochemical reactions and 1177 compounds of E.Coli are parsed to obtain the coefficient matrix • We fail to figure out the result if all biochemical reactions and compounds are considered.

  26. Alternative resource But it works when we ignore all reactions and compounds. The relationship of compounds related to Lysine is represented as follow :

  27. R10-R11=0 R11-R12=0 R12-R13-R17=0 R13-R14=0 R14-R15=0 R16+R28-R29=0 R17-R18=0 R18-R19=0 R19-R20=0 R20-R21=0 subject to R1=100 R1-R2=0 R2-R3=0 R3-R4=0 R4-R5=0 R5-R6=0 R6-R7=0 R7-R8=0 R8-R9-R16=0 R9-R10=0 R21-R22=0 R22-R23=0 R23-R24=0 R24-R25=0 R25-R26=0 R26-R27=0 R27-R28=0 R29-R30=0 R30-R31=0 R31-R39-R32=0 R32-R33=0 R33-R34=0 R34-R35=0 R35-R36=0 R36-R37=0 R37-R38=0 R40-R41=0 R39-R40-R42=0 R42-R43=0 R43-R44=0 -100<=Ri<=100 max C00047(lysine)

  28. Result • Input data: E.coli reactions (KEGG) • Result Methionine=0, Threonine=0, Lysine=47.5

  29. Thank You ! Describe the usage of Lysine. Find the metabolic pathways involved in the synthesis of the following compound . Find the enzymes and genes involved in these pathway reactions . Is E. Coli suitable for biosynthesis of Lysine ? Group9, 2004.11.19

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