Part:BBa_K2664006
Mg chelatase plasmid
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12INCOMPATIBLE WITH RFC[12]Illegal NheI site found at 1720
Illegal NotI site found at 3751
Illegal NotI site found at 9504 - 21INCOMPATIBLE WITH RFC[21]Illegal BglII site found at 1
Illegal BglII site found at 304
Illegal BglII site found at 960
Illegal BglII site found at 1155
Illegal BglII site found at 4456
Illegal BglII site found at 4580
Illegal BglII site found at 6580
Illegal BamHI site found at 352 - 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal NgoMIV site found at 3031
Illegal NgoMIV site found at 3850
Illegal NgoMIV site found at 4392
Illegal NgoMIV site found at 5138
Illegal NgoMIV site found at 6804
Illegal AgeI site found at 5784
Illegal AgeI site found at 7302
Illegal AgeI site found at 7356
Illegal AgeI site found at 7575 - 1000INCOMPATIBLE WITH RFC[1000]Illegal BsaI.rc site found at 6906
Illegal BsaI.rc site found at 7701
Illegal SapI.rc site found at 7631
Overview
The fate of the protoporphyrin IX (PPIX) is dependent upon which enzyme is present to convert PPIX to the next product. For instance, ferrochelatase (encoded by hemH) converts PPIX to FePPIX (heme). Our magnesium chelatase plasmid is an assembly of five biobricks, a combination of new and previously registered by past Macquarie iGEM teams. These genes form the first part of the chlorophyll biosynthesis pathway and are found in our plasmid with the following order; ChlI1, ChlI2, ChlD, ChlH and GUN4. They encode for Magnesium chelatase subunits I (ChlI1, ChlI2), D (ChlD) and H (ChlH), as well as for Genomes uncoupled 4 (gUN4). All together, they catalyse the reaction of converting protoporphyrin IX to divinyl protochlorophyllide in the presence of NADPH and O2.
The genes' sequences have been designed to contain a ribosome binding site (AGGAGG), located six codons upstream the start codon for every gene. Additionally, the genes ChlI1 and ChlH carry the trc promoter, instead of the plac promoter that was previously present.
Biology & Literature
Genes chlI1 and chlI2 form a Mg-cheltase complex (Magnesium cheltase subunit I). This complex catalyses the insertion of magnesium ion into protoporphyrin IX to yield Mg-protoporphyrin IX by forming an ATP dependent hexameric ring complex and a complex with the chlD subunit. This complex then acts on protoporphyrin. The gUN4 gene encodes genomes uncoupled 4 protein. This is a tetrapyrrole-binding protein which controls the production of Mg-protoporhyrin IX. The cTH1 gene encodes for a copper target protein. It forms when oxygen and copper are present catalysing Mg-protoporphyrin IX mono methyl, and subsequently converts to divinyl protochlorophyllide when NADPH and O2 are present. The last gene is chlH. This gene encodes for the magnesium shelters subunit H. This acts as a chloroplast precursor, catalysing the first step in the chlorophyl biosynthesis pathway by insertion of an Mg2+ ion into protoporphyrin IX to generate Mg-protoporphyrin IX.
The chlH and gUN4 proteins bind to protoporphyrin IX and form an activated substrate complex which behaves as a substrate for the motor complex (ChlID complex) to insert magnesium into the bound Protoporphyrin IX upon ATP hydrolysis. The assembly of this complex requires milliMolar concentrations of Mg2+ and ATP to assemble. While the substrate complex also requires microMolar concentrations of Protoporphyrin IX and chlH for optimal activity.
Assembly and Design
Each individual biobrick was assembled in the following order using 3A assembly: pLac-chlI1-chlD-gun4-chlI2-cTH1-pLac-chlH [BBa_R0010], [BBa_K1326008], [BBa_K1080011], [BBa_K1080005] and [BBa_K1640019]. Five of these genes code for different subunits of the enzyme Magnesium chelatase, with the cTH1 gene encoding a component of a later enzyme in the pathway, the oxidative cyclase.
All genes within this plasmid are sequences obtained from Chlamydomonas reinhardtii and codon optimised to be expressed in E. coli.
Characterisation and Verification
Protein information
chlI1
Mass: 39.96kDa
Sequence:
MAATEVKAAEGRTEKELGQARPIFPFTAIVGQDEMKLALILNVIDPKIGGVMIMGDRGTGKSTTIRALADLLPEMQVVANDPFNSDPTDPELMSEEVRNR
VKAGEQLPVSSKKIPMVDLPLGATEDRVCGTIDIEKALTEGVKAFEPGLLAKANRGILYVDEVNLLDDHLVDVLLDSAASGWNTVEREGISISHPARFIL
VGSGNPEEGELRPQLLDRFGMHAQIGTVKDPRLRVQIVSQRSTFDENPAAFRKDYEAGQMALTQRIVDARKLLKQGEVNYDFRVKISQICSDLNVDGIRG
DIVTNRAAKALAAFEGRTEVTPEDIYRVIPLCLRHRLRKDPLAEIDDGDRVREIFKQVFGME
chlD
Mass: 63.84kDa
Sequence:
MRAMKVSEED SKGFDADVST RLARSYPLAA VVGQDNIKQA LLLGAVDTGL GGIAIAGRRG
TAKSIMARGL HALLPPIEVV EGSICNADPE DPRSWEAGLA EKYAGGPVKT KMRSAPFVQI
DGVNVVEREG ISISHPCRPL LIATYNPEEG PLREHLLDRI AIGLSADVPS TSDERVKAID
AAIRFQDKPQ DTIDDTAELT DALRTSVILA REYLKDVTIA PEQVTYIVEE ARRGGVQGHR
AELYAVKCAK ACAALEGRER VNKDDLRQAV QLVILPRATI LDQPPPEQEQ PPPPPPPPPP
PPPQDQMEDE DQEEKEDEKE EEEKENEDQD EPEIPQEFMF ESEGVIMDPS ILMFAQQQQR
AQGRSGRAKT LIFSDDRGRY IKPMLPKGDK VKRLAVDATL RAAAPYQKIR RQQAISEGKV
QRKVYVDKPD MRSKKLARKA GALVIFVVDA SGSMALNRMS AAKGACMRLL AESYTSRDQV
VMMVLITDGR ANVSLAKSNE DPEALKPDAP KPTADSLKDE VRDMAKKAAS AGINVLVIDT
ENKFVSTGFA EEISKAAQGK YYYLPNASDA AIAAAASGAM AAAKGGY
gun4
Mass: 24.36kDa
Sequence:
MAMRVTVAAG KLDSVSLFGG DTASLMGGSQ TVEKKKSGKE AVMEVQLSST AGIDYTVLRD
HLANGEFREA EDETRALLIK LAGPEAVKRN WVYFTEVKNI SVTDFQTLDN LWKASSNNKF
GYSVQKEIWV QNQKRWPKFF KQIDWTQGEN NNYRKWPMEF IYSMDAPRGH LPLTNALRGT
QLFQAIMEHP AFEKSSTAKT LDQKAAEAAG RTQSLF
chlI2
Mass: 39.56kDa
Sequence:
MPSTKAAKKP NFPFVKIQGQ EEMKLALLLN VVDPNIGGVL IMGDRGTAKS VAVRALVDML
PDIDVVEGDA FNSSPTDPKF MGPDTLQRFR NGEKLPTVRM RTPLVELPLG ATEDRICGTI
DIEKALTQGI KAYEPGLLAK ANRGILYVDE VNLLDDGLVD VVLDSSASGL NTVEREGVSI
VHPARFIMIG SGNPQEGELR PQLLDRFGMS VNVATLQDTK QRTQLVLDRL AYEADPDAFV
DSCKAEQTAL TDKLEAARQR LRSVKISEEL QILISDICSR LDVDGLRGDI VINRAAKALV
AFEGRTEVTT NDVERVISGC LNHRLRKDPL DPIDNGTKVA ILFKRMTDPE IMKREEEAKK
cTH1
Mass: 43.88kDa
Sequence:
MVAATAAPQE VEGFKVMRDG IKVASDETLL TPRFYTTDFD EMERLFSLEL NKNMDMEEFE
AMLNEFKLDY NQRHFVRNET FKEAAEKIQG PTRKIFIEFL ERSCTAEFSG FLLYKELGRR
LKATNPVVAE IFTLMSRDEA RHAGFLNKAM SDFNLALDLG FLTKNRKYTF FKPKFIFYAT
YLSEKIGYWR YISIYRHLQR NPDNQLYPLF EYFENWCQDE NRHGDFFTAV LKARPEMVND
WAAKLWSRFF CLSVYITMYL NDHQRDAFYS SLGLNTTQFN QHVIIETNKS TERIFPAVPD
VENPEFFRRM DLLVKYNAQL VNIGSMNLPS PIKAIMKAPI LERMVAEVFQ VFIMTPKESG
SYDLDANKTA LVY
chlH
Mass:144.14
Sequence:
MCNVATGPRP PMTTFTGGNK GPAKQQVSLD LRDDGAGMFT STSPEMRRVV PDDVKGRVKV
KVVYVVLEAQ YQSAISAAVK NINAKNSKVC FEVVGYLLEE LRDQKNLDML KEDVASANIF
IGSLIFIEEL AEKIVEAVSP LREKLDACLI FPSMPAVMKL NKLGTFSMAQ LGQSKSVFSE
FIKSARKNND NFEEGLLKLV RTLPKVLKYL PSDKAQDAKN FVNSLQYWLG GNSDNLENLL
LNTVSNYVPA LKGVDFSVAE PTAYPDVGIW HPLASGMYED LKEYLNWYDT RKDMVFAKDA
PVIGLVLQRS HLVTGDEGHY SGVVAELESR GAKVIPVFAG GLDFSAPVKK FFYDPLGSGR
TFVDTVVSLT GFALVGGPAR QDAPKAIEAL KNLNVPYLVS LPLVFQTTEE WLDSELGVHP
VQVALQVALP ELDGAMEPIV FAGRDSNTGK SHSLPDRIAS LCARAVNWAN LRKKRNAEKK
LAVTVFSFPP DKGNVGTAAY LNVFGSIYRV LKNLQREGYD VGALPPSEED LIQSVLTQKE
AKFNSTDLHI AYKMKVDEYQ KLCPYAEALE ENWGKPPGTL NTNGQELLVY GRQYGNVFIG
VQPTFGYEGD PMRLLFSKSA SPHHGFAAYY TFLEKIFKAD AVLHFGTHGS LEFMPGKQVG
MSGVCYPDSL IGTIPNLYYY AANNPSEATI AKRRSYANTI SYLTPPAENA GLYKGLKELK
ELISSYQGMR ESGRAEQICA TIIETAKLCN LDRDVTLPDA DAKDLTMDMR DSVVGQVYRK
LMEIESRLLP CGLHVVGCPP TAEEAVATLV NIAELDRPDN NPPIKGMPGI LARAIGRDIE
SIYSGNNKGV LADVDQLQRI TEASRTCVRE FVKDRTGLNG RIGTNWITNL LKFTGFYVDP
WVRGLQNGEF ASANREELIT LFNYLEFCLT QVVKDNELGA LVEALNGQYV EPGPGGDPIR
NPNVLPTGKN IHALDPQSIP TQAALKSARL VVDRLLDRER DNNGGKYPET IALVLWGTDN
IKTYGESLAQ VMMMVGVKPV ADALGRVNKL EVIPLEELGR PRVDVVVNCS GVFRDLFVNQ
AVENSSWSDE SQLQEMYLKR KSYAFNSDRP GAGGEMQRDV FETAMKTVDV TFQNLDSSEI
SLTDVSHYFD SDPTKLVASL RNDGRTPNAY IADTTTANAQ VRTLGETVRL DARTKLLNPK
WYEGMLASGY EGVREIQKRM TNTMGWSATS GMVDNWVYDE ANSTFIEDAA MAERLMNTNP
NSFRKLVATF LEANGRGYWD AKPEQLERLR QLYMDVEDKI EGVE
References
[1] Adhikari ND, Froehlich JE, Strand DD, Buck SM, Kramer DM, Larkin RM. gUN4-Porphyrin Complexes Bind the chlH/gUN5 Subunit of Mg-Chelatase and Promote Chlorophyll Biosynthesis in Arabidopsis. Plant Cell. 2013; 23: 1449-1467.
[2] Tabrizi S, Sawicki A, Zhou S, Luo M, Willows R. GUN4-Protoporphyrin IX Is a Singlet Oxygen Generator with Consequences for Plastid Retrograde Signaling. Journal of Biological Chemistry. 2016;291(17): 8978-8984.
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