KEGG   PATHWAY: sstn00195
Entry
sstn00195                   Pathway                                
Name
Photosynthesis - Solanum stenotomum
Description
Photosynthesis in green plants and specialized bacteria is the process of utilizing light energy to synthesize organic compounds from carbon dioxide and water. It consists of the light dependent part (light reaction) and the light independent part (dark reaction, carbon fixation). The light reaction takes place in thylakoid, a membrane-bound compartment inside chloroplasts and cyanobacteria. The light energy is used by photosystems I and II to generate proton motive force and reducing power (NADPH or NADH). The proton motive force is used by ATP synthase to generate ATP, essentially in the same way as the mitochondrial respiratory chain. The supplies of ATP and NAD(P)H are then used to fix carbon dioxide.
Class
Metabolism; Energy metabolism
Pathway map
sstn00195  Photosynthesis
sstn00195

Module
sstn_M00157  F-type ATPase, prokaryotes and chloroplasts [PATH:sstn00195]
sstn_M00161  Photosystem II [PATH:sstn00195]
sstn_M00163  Photosystem I [PATH:sstn00195]
Organism
Solanum stenotomum [GN:sstn]
Gene
125841453  [KO:K02698]
125841681  [KO:K02698]
125842179  [KO:K02701]
125844128  [KO:K02639]
125845378  [KO:K02639]
125845752  [KO:K02690] [EC:1.97.1.12]
125846243  [KO:K02694]
125846245  [KO:K02694]
125846291  [KO:K02115]
125847677  [KO:K02641] [EC:1.18.1.2]
125847753  [KO:K02716]
125847962  [KO:K02641] [EC:1.18.1.2]
125848635  [KO:K08906]
125848682  [KO:K08901]
125849289  [KO:K02716]
125849326  [KO:K02641] [EC:1.18.1.2]
125851806  [KO:K02689] [EC:1.97.1.12]
125851812  [KO:K02109]
125854409  [KO:K02638]
125858645  [KO:K08902]
125858646  [KO:K08902]
125858779  [KO:K02695]
125859046  [KO:K02111] [EC:7.1.2.2 7.2.2.1]
125860040  [KO:K02639]
125860991  [KO:K02717]
125862089  [KO:K02695]
125862250  [KO:K03541]
125862594  [KO:K02115]
125863338  [KO:K02636] [EC:7.1.1.6]
125863409  [KO:K02113]
125865027  [KO:K02639]
125865077  [KO:K02639]
125865122  [KO:K08901]
125865257  [KO:K02723]
125865571  [KO:K02639]
125866024  [KO:K02639]
125866869  [KO:K02639]
125868145  [KO:K02113]
125868285  [KO:K08901]
125870171  [KO:K08903]
125870339  [KO:K02721]
125870354  [KO:K02693]
125871952  [KO:K02703] [EC:1.10.3.9]
125872054  [KO:K02699]
125872055  [KO:K02699]
125872612  [KO:K03542]
125872633  [KO:K02721]
125872725  [KO:K02109]
125872726  [KO:K02109]
125873134  [KO:K02639]
125873219  [KO:K14332]
125874328  [KO:K02693]
125874450  [KO:K02692]
125874833  [KO:K02695]
125875570  [KO:K02717]
125875690  [KO:K08905]
125876875  [KO:K02639]
125877181  [KO:K03541]
125877205  [KO:K08902]
125877794  [KO:K02641] [EC:1.18.1.2]
39717186  psbA; PsbA [KO:K02703] [EC:1.10.3.9]
39717191  psbK; PsbK [KO:K02712]
39717192  psbI; PsbI [KO:K02710]
39717196  atpA; AtpA [KO:K02111] [EC:7.1.2.2 7.2.2.1]
39717197  atpF; AtpF [KO:K02109]
39717198  atpH; AtpH [KO:K02110]
39717199  atpI; AtpI [KO:K02108]
39717205  petN; PetN [KO:K03689]
39717206  psbM; PsbM [KO:K02714]
39717211  psbD; PsbD [KO:K02706] [EC:1.10.3.9]
39717212  psbC; PsbC [KO:K02705]
39717214  psbZ; PsbZ [KO:K02724]
39717218  psaB; PsaB [KO:K02690] [EC:1.97.1.12]
39717219  psaA; PsaA [KO:K02689] [EC:1.97.1.12]
39717231  atpE; AtpE [KO:K02114]
39717232  atpB; AtpB [KO:K02112] [EC:7.1.2.2 7.2.2.1]
39717235  psaI; PsaI [KO:K02696]
39717238  petA; PetA [KO:K02634]
39717239  psbJ; PsbJ [KO:K02711]
39717240  psbL; PsbL [KO:K02713]
39717241  psbF; PsbF [KO:K02708]
39717242  psbE; PsbE [KO:K02707]
39717244  petG; PetG [KO:K02640]
39717247  psaJ; PsaJ [KO:K02697]
39717252  psbB; PsbB [KO:K02704]
39717253  psbT; PsbT [KO:K02718]
39717255  psbH; PsbH [KO:K02709]
39717256  petB; PetB [KO:K02635]
39717257  petD; PetD [KO:K02637]
39717289  psaC; PsaC [KO:K02691] [EC:1.97.1.12]
Compound
C00001  H2O
C00002  ATP
C00005  NADPH
C00006  NADP+
C00007  Oxygen
C00008  ADP
C00009  Orthophosphate
C00034  Manganese
C00080  H+
C02061  Plastoquinone
C16693  Plastoquinol
Reference
PMID:14764885
  Authors
Ferreira KN, Iverson TM, Maghlaoui K, Barber J, Iwata S.
  Title
Architecture of the photosynthetic oxygen-evolving center.
  Journal
Science 303:1831-8 (2004)
DOI:10.1126/science.1093087
Reference
PMID:12518057
  Authors
Kamiya N, Shen JR.
  Title
Crystal structure of oxygen-evolving photosystem II from Thermosynechococcus vulcanus at 3.7-A resolution.
  Journal
Proc Natl Acad Sci U S A 100:98-103 (2003)
DOI:10.1073/pnas.0135651100
Reference
PMID:11217865
  Authors
Zouni A, Witt HT, Kern J, Fromme P, Krauss N, Saenger W, Orth P.
  Title
Crystal structure of photosystem II from Synechococcus elongatus at 3.8 A resolution.
  Journal
Nature 409:739-743 (2001)
DOI:10.1038/35055589
Reference
PMID:11418848
  Authors
Jordan P, Fromme P, Witt HT, Klukas O, Saenger W, Krauss N.
  Title
Three-dimensional structure of cyanobacterial photosystem I at 2.5 A resolution.
  Journal
Nature 411:909-917 (2001)
DOI:10.1038/35082000
Reference
PMID:11369223
  Authors
Jones MR, Fyfe PK.
  Title
Photosynthesis: new light on biological oxygen production.
  Journal
Curr Biol 17:R318-R321 (2001)
DOI:10.1016/S0960-9822(01)00174-9
Reference
PMID:11914373
  Authors
Shen G, Zhao J, Reimer SK, Antonkine ML, Cai Q, Weiland SM, Golbeck JH, Bryant DA.
  Title
Assembly of photosystem I. I. Inactivation of the rubA gene encoding a membrane-associated rubredoxin in the cyanobacterium Synechococcus sp. PCC 7002 causes a loss of photosystem I activity.
  Journal
J Biol Chem 277:20343-54 (2002)
DOI:10.1074/jbc.M201103200
Related
pathway
sstn00196  Photosynthesis - antenna proteins
sstn00710  Carbon fixation by Calvin cycle
KO pathway
ko00195   

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