Sequence Listing:-

<110> String Bio Private Limited

<120> PRODUCTION OF SUCCINIC ACID FROM ORGANIC WASTE OR BIOGAS OR METHANE USING RECOMBINANT METHANOTROPHIC BACTERIUM 

<160> 22

<210> 1
<211> 939
<212> DNA
<213> E.coli

<220>
<223> Malate dehydrogenase

<400> 1
atgAAAGTCG CAGTCCTCGG CGCTGCTGGC GGTATTGGCC AGGCGCTTGC ACTACTGTTA	 60

AAAACCCAAC TGCCTTCAGG TTCAGAACTC TCTCTGTATG ATATCGCTCC AGTGACTCCC	120

GGTGTGGCTG TCGATCTGAG CCATATCCCT ACTGCTGTGA AAATCAAAGG TTTTTCTGGT	180

GAAGATGCGA CTCCGGCGCT GGAAGGCGCA GATGTCGTTC TTATCTCTGC AGGCGTAGCG	240

CGTAAACCGG GTATGGATCG TTCCGACCTG TTTAACGTTA ACGCCGGCAT CGTGAAAAAC	300

CTGGTACAGC AAGTTGCGAA AACCTGCCCG AAAGCGTGCA TTGGTATTAT CACTAACCCG	360

GTTAACACCA CAGTTGCAAT TGCTGCTGAA GTGCTGAAAA AAGCCGGTGT TTATGACAAA	420

AACAAACTGT TCGGCGTTAC CACGCTGGAT ATCATTCGTT CCAACACCTT TGTTGCGGAA	480

CTGAAAGGCA AACAGCCAGG CGAAGTTGAA GTGCCGGTTA TTGGCGGTCA CTCTGGTGTT	540

ACCATTCTGC CGCTGCTGTC ACAGGTTCCT GGCGTTAGTT TTACCGAGCA GGAAGTGGCT	600

GATCTGACCA AACGCATCCA GAACGCGGGT ACTGAAGTGG TTGAAGCGAA GGCCGGTGGC	660

GGGTCTGCAA CCCTGTCTAT GGGCCAGGCA GCTGCACGTT TTGGTCTGTC TCTGGTTCGT	720

GCACTGCAGG GCGAACAAGG CGTTGTCGAA TGTGCCTACG TTGAAGGCGA CGGTCAGTAC	780

GCCCGTTTCT TCTCTCAACC GCTGCTGCTG GGTAAAAACG GCGTGGAAGA GCGTAAATCT	840

ATCGGTACCC TGAGCGCATT TGAACAGAAC GCGCTGGAAG GTATGCTGGA TACGCTGAAG	900

AAAGATATCG CCCTGGGCGA AGAGTTCGTT AATAAGtaa				939
	
<210> 2
<211> 3291
<212> DNA
<213> P.aeruginosa

<220>
<223> Pyruvate Carboxylase

<400> 2
gtgACCGCTC CCCCCTTCAA CGCCTTGCTG ATCGCCAACC GCGGCGAGAT CGCCATTCGC	 60

ATCGCCCGCG CCTGCGCCGA CCTGGGTATC CGCTCGGTGG CGGTGTTCGC GGAAGACGAT	120

GCCGCGTCCC TGCACGTGCG GAAGGCCGAT GTCGCGCTGC CGCTGGCCGG CCGTGGCGTG	180

GCGGCCTATC TCGACATGGA TCGGCTGGTC GCGCTGGCCC TGGAGCAGGG CTGCGAGGCG	240

ATCCATCCGG GCTACGGTTT CCTCGCCGAG AACGGCGAAT TCGCCCGGCG CTGCCAGCGC	300

GCGGGCATCC ACTTCGTCGG GCCGCAAGCG GAAGTGCTCG ACCTGCTCGG CGACAAGGCT	360

GCCGCGCGCG CCCTGGCCGA GCGCCTGGAG GTGCCGCTGG TGGCCGGGAT CAACCGTGCG	420

GTCAGCGTCG AAGAGGCCGA GGCGTTCCTG GAAGGGCTGG GCGATGGCGC CGCGGTGATG	480

CTCAAGGCCC TTGCCGGCGG CGGCGGACGT GGCATGCGCG CGGTGGAGGA GGTTGCGCAA	540

CTGGCCGATG CCTACCGCCG CTGCCGTGCC GAGGCGCAGG CGGCGTTCGG CCGGGACGAG	600

TTATACGTCG AGCAACGGGT AGCGCGGGCG CGGCACATCG AGGTGCAGGT GCTCGGCGAC	660

GGCAGCGGTG CGGTCAGCCA CCTCTGGGAG CGCGATTGCA GCCTGCAACG GCGCCAGCAG	720

AAGCTGCTGG AGATCGCGCC CAGCCCGGAC CTGCCGGAGG CCACTCGCGA GGCGCTGATC	780

GATTGCGCCC TGCGCATGGC CGGCGCGGTG CGCTATCGGG GGATCGGTAC CTTCGAGTTC	840

CTGGTCGACG AGGAGCGCCC CGGGCACTTC TATTTCATGG AAGCCAATCC GCGTATCCAG	900

GTGGAGCACA CCGTCACCGA GGAAGTCACC GGGGTCGACC TGCTGCACGC CCAGTTGCGT	960

CTCGCCGCCG GCATGGAGCT TGCCGCCCTC GGCCTGGAGC GACCGCCGGC GATCGGCGGC      1020

TGCGCGGTGC AACTGCGGAT CAACCTGGAG ACCCTGGCGG TCGACGGCAG CGCCCGTCCG      1080

GCGGTGGGCA CTATCGGCGC CTACGAACCG CCCAGCGGTC CCGGCCTGCG GGTGGACGGC      1140

TACGGCTATG CCGGCTATCG GGTCAGCCCC AGCTACGATT CGCTGCTGGC CAAGCTGGTC      1200

GTGCGCGGCG CGGATTATCC CGCCGCGTTG CGCCGGGCCT ACCGGGCGCT CTGCGAATTC      1260

CGCCTGGAGG GCGTGGCGAG CAACCTGGAC CTGCTGCGCA ACCTTCTGCT GCATCCGGCG      1320

GTACAGGCCA ACCGGGTCGA CACCCGCTTC GTCGAAAGCC ACCTGGAGAC ACTGCTGGCG      1380

CCTATCCCGG CGAGCCATCC GCGGCTCCGC GCCGAGTGCC CGCTCGCCGA GGACGCCGCG      1440

CCTGCGCGGG TCGAGGCGCC ACTCGGCAGC CTGCCGCTGT CGGCGCCGAG CAGCGGGGTG      1500

CTGGTGGCCC TGGAAGTGGC CGAGGGCGAA CGGGTGCGTG CCGGCCAGCG GGTCGCGATC      1560

CTGGAAGCGA TGAAGATGGA GTTCGAGGTC AAGGCACCCG GCGGGGGGAT CGTCCGGCGG      1620

CTCGCGGCGA GCCTCGGGGA GCCTCTGGAG GAGGGCGCGA CGCTGCTGTT CCTTGAACCG      1680

ACGGAGGATG ACGACGAGCA GGCACCGACC GAACAGGCGC TGGACCTGGC GCATATCCGC      1740

GCCGATCTCG CCGAGGTACT CGAGCGCCAG GCAGCGCTGG GCGACGAGCG TCGTCCGCAG      1800

GCGCTTGCCA GGCGGCGCAA GACCGGACAG CGTACCGCGC GGGAGAACGT GCTCGACCTG      1860

CTGGACGAGG GCAGCTTCAG CGAATATGGC GGTTTCGCCC TGGCCGCCCA GCGTCGCCGG      1920

CGTTCCGCCG AGGAGTTGCT GGAGCTGAGC CCCGCCGATG GCCTGGTCGC CGGCACCGGT      1980

ACGGTGGGGG CCGCCAGCTT CGGCGTGCAG GCCGCGCGTT GCCTGGTACT GGCCTACGAC      2040

TACACGGTGT TCGCCGGCAC CCAGGGGGTG ATGAACCACA AGAAGACCGA CCGCCTGCTC      2100

GGCCTGGCCG AACAGTGGCG CTTGCCGCTG GTGCTGTTCG CCGAGGGCGG CGGCGGGCGC      2160

CCGGGCGATA CCGATTTCGT CGGCGTCGCC GGCCTCGATT GCCATACCTT CGTCGGCATG      2220

GCCCGGCTCT CCGGGCTGGT GCCGCTGGTG GGAGTGGTCT CCGGTCGCTG CTTCGCCGGC      2280

AATGCCGCGT TGCTGGGCTG CTGCGATGTG ATCATCGCCA CCCGCGACGC CACCATCGGC      2340

ATGGCCGGCC CGGCGATGAT CGAGGGCGGC GGCCTGGGCC GTTTCGCCGC CGAGGAGGTC      2400

GGTCCGACGG GCGTGCAGGG GCCCAACGGA GTGATCGACG TACTGGTGGA GGACGAGGCC      2460

GAAGCGGTCG CGGTGGCCAG GCGCTATCTC GGCTATTTCC AGGGCCCGCT GCCCGACTGG      2520

AGTTGCGCCG ACCAGCGCGA GTTGCGCCAC CTGGTGCCGG AGAACCGCCT GCGTGCCTAC      2580

GACATCCGCC AGGCGATCGA GGTCCTGGCC GACCGGGGCA GCGTGCTGGA ACTGCGGCGC      2640

CAGTTCGCTC CCGGCCTGGT CACCGCGCTG CTGCGCATCG AGGGCCGGGC GTTCGGCCTG      2700

ATCGCCAACA ACCCTGGCCA TCTCGGCGGC GCCATCGATG CCGCGGCTGG CGACAAGGCC      2760

GCGCGCTTCA TGCAGTTGTG CGACGCCTTC GACATCCCGA TCGTCTCGCT CTGCGACACC      2820

CCTGGCTTCA TGGTCGGCCC GGAGGCGGAA AAACAGGCCA CGGTGCGCCA CGTCTCGCGG      2880

ATGTTCGTCA GCGCCGCCAG CCTGACGGTG CCGTTCTTCA CCGTGGTCCT GCGCAAGGGC      2940

TACGGACTGG GAGCCCAGGC CATGGCGGCG GGCAGCTTCC ATTCGCCGCT GTTCACCGTC      3000

GCCTGGCCCA GCGGCGAGTT CGGCGCCATG GGCCTGGAAG GCGCGGTGCG GCTGGGCTTC      3060

GCCAAGGAGC TGGCGGCCGA GGAAGATCCC CAGCGGCGCG AGGCGCTGTT CCGCGGCATG      3120

GTGGACAAGG CCTACCGCAA CGGCAAGGCG CTGAACATGG CCAGCTACCT GGAGATCGAC      3180

GCGGTGATCG ACCCGGCGGA GACCCGCGCC TGGCTCCTGC GCGGCCTGGC CGTCGCCGGA      3240

GAACCGGTGC CGAGGGCGGG GCGCAAGCGG CCGTTCGTGG ATACCTGGta g	       3291

<210> 3
<211> 2652
<212> DNA
<213> E.coli

<220>
<223> Phosphoenol pyruvate carboxylase

<400> 3
atgAACGAAC AATATTCCGC ATTGCGTAGT AATGTCAGTA TGCTCGGCAA AGTGCTGGGA	 60

GAAACCATCA AGGATGCGTT GGGAGAACAC ATTCTTGAAC GCGTAGAAAC TATCCGTAAG	120

TTGTCGAAAT CTTCACGCGC TGGCAATGAT GCTAACCGCC AGGAGTTGCT CACCACCTTA	180

CAAAATTTGT CGAACGACGA GCTGCTGCCC GTTGCGCGTG CGTTTAGTCA GTTCCTGAAC	240

CTGGCCAACA CCGCCGAGCA ATACCACAGC ATTTCGCCGA AAGGCGAAGC TGCCAGCAAC	300

CCGGAAGTGA TCGCCCGCAC CCTGCGTAAA CTGAAAAACC AGCCGGAACT GAGCGAAGAC	360

ACCATCAAAA AAGCAGTGGA ATCGCTGTCG CTGGAACTGG TCCTCACGGC TCACCCAACC	420

GAAATTACCC GTCGTACACT GATCCACAAA ATGGTGGAAG TGAACGCCTG TTTAAAACAG	480

CTCGATAACA AAGATATCGC TGACTACGAA CACAACCAGC TGATGCGTCG CCTGCGCCAG	540

TTGATCGCCC AGTCATGGCA TACCGATGAA ATCCGTAAGC TGCGTCCAAG CCCGGTAGAT	600

GAAGCCAAAT GGGGCTTTGC CGTAGTGGAA AACAGCCTGT GGCAAGGCGT ACCAAATTAC	660

CTGCGCGAAC TGAACGAACA ACTGGAAGAG AACCTCGGCT ACAAACTGCC CGTCGAATTT	720

GTTCCGGTCC GTTTTACTTC GTGGATGGGC GGCGACCGCG ACGGCAACCC GAACGTCACT	780

GCCGATATCA CCCGCCACGT CCTGCTACTC AGCCGCTGGA AAGCCACCGA TTTGTTCCTG	840

AAAGATATTC AGGTGCTGGT TTCTGAACTG TCGATGGTTG AAGCGACCCC TGAACTGCTG	900

GCGCTGGTTG GCGAAGAAGG TGCCGCAGAA CCGTATCGCT ATCTGATGAA AAACCTGCGT	960

TCTCGCCTGA TGGCGACACA GGCATGGCTG GAAGCGCGCC TGAAAGGCGA AGAACTGCCA      1020

AAACCAGAAG GCCTGCTGAC ACAAAACGAA GAACTGTGGG AACCGCTCTA CGCTTGCTAC      1080

CAGTCACTTC AGGCGTGTGG CATGGGTATT ATCGCCAACG GCGATCTGCT CGACACCCTG      1140

CGCCGCGTGA AATGTTTCGG CGTACCGCTG GTCCGTATTG ATATCCGTCA GGAGAGCACG      1200

CGTCATACCG AAGCGCTGGG CGAGCTGACC CGCTACCTCG GTATCGGCGA CTACGAAAGC      1260

TGGTCAGAGG CCGACAAACA GGCGTTCCTG ATCCGCGAAC TGAACTCCAA ACGTCCGCTT      1320

CTGCCGCGCA ACTGGCAACC AAGCGCCGAA ACGCGCGAAG TGCTCGATAC CTGCCAGGTG      1380

ATTGCCGAAG CACCGCAAGG CTCCATTGCC GCCTACGTGA TCTCGATGGC GAAAACGCCG      1440

TCCGACGTAC TGGCTGTCCA CCTGCTGCTG AAAGAAGCGG GTATCGGGTT TGCGATGCCG      1500

GTTGCTCCGC TGTTTGAAAC CCTCGATGAT CTGAACAACG CCAACGATGT CATGACCCAG      1560

CTGCTCAATA TTGACTGGTA TCGTGGCCTG ATTCAGGGCA AACAGATGGT GATGATTGGC      1620

TATTCCGACT CAGCAAAAGA TGCGGGAGTG ATGGCAGCTT CCTGGGCGCA ATATCAGGCA      1680

CAGGATGCAT TAATCAAAAC CTGCGAAAAA GCGGGTATTG AGCTGACGTT GTTCCACGGT      1740

CGCGGCGGTT CCATTGGTCG CGGCGGCGCA CCTGCTCATG CGGCGCTGCT GTCACAACCG      1800

CCAGGAAGCC TGAAAGGCGG CCTGCGCGTA ACCGAACAGG GCGAGATGAT CCGCTTTAAA      1860

TATGGTCTGC CAGAAATCAC CGTCAGCAGC CTGTCGCTTT ATACCGGGGC GATTCTGGAA      1920

GCCAACCTGC TGCCACCGCC GGAGCCGAAA GAGAGCTGGC GTCGCATTAT GGATGAACTG      1980

TCAGTCATCT CCTGCGATGT CTACCGCGGC TACGTACGTG AAAACAAAGA TTTTGTGCCT      2040

TACTTCCGCT CCGCTACGCC GGAACAAGAA CTGGGCAAAC TGCCGTTGGG TTCACGTCCG      2100

GCGAAACGTC GCCCAACCGG CGGCGTCGAG TCACTACGCG CCATTCCGTG GATCTTCGCC      2160

TGGACGCAAA ACCGTCTGAT GCTCCCCGCC TGGCTGGGTG CAGGTACGGC GCTGCAAAAA      2220

GTGGTCGAAG ACGGCAAACA GAGCGAGCTG GAGGCTATGT GCCGCGATTG GCCATTCTTC      2280

TCGACGCGTC TCGGCATGCT GGAGATGGTC TTCGCCAAAG CAGACCTGTG GCTGGCGGAA      2340

TACTATGACC AACGCCTGGT AGACAAAGCA CTGTGGCCGT TAGGTAAAGA GTTACGCAAC      2400

CTGCAAGAAG AAGACATCAA AGTGGTGCTG GCGATTGCCA ACGATTCCCA TCTGATGGCC      2460

GATCTGCCGT GGATTGCAGA GTCTATTCAG CTACGGAATA TTTACACCGA CCCGCTGAAC      2520

GTATTGCAGG CCGAGTTGCT GCACCGCTCC CGCCAGGCAG AAAAAGAAGG CCAGGAACCG      2580

GATCCTCGCG TCGAACAAGC GTTAATGGTC ACTATTGCCG GGATTGCGGC AGGTATGCGT      2640

AATACCGGCt aa							       2652


<210> 4
<211> 1263
<212> DNA
<213> M. capsulatus Bath

<220>
<223> Phosphofructokinase

<400> 4
atgGCGGCGC GGAATGCTTT CTATGCCCAG TCCGGCGGTG TGACCGCCGT TATCAATGCA	 60

TCGGCCTGCG GCGTGCTGGA GACCGCCCGG CAGTATCCCG ACCGTATCGG CACGGTTTAC	120

GCCGGGCGTA ACGGCATCGT CGGTGCACTG ACCGAGGACC TGATCGATAC CGGGCAGGAG	180

AGCGCCGAAG CCATCGCCGC ATTGCGCCAC ACTCCCTCCG GGGCGTTCGG TTCCTGCCGC	240

TACAAGCTCA AAGGGCTGGA GGAGAACCGG GCCCAGTACG AACGGTTGAT CGAGGTCTTC	300

CGCGCCCACG ACATCGGCTA TTTCTTCTAC AACGGCGGCG GGGATTCCGC CGATACCTGT	360

CTGAAAGTCT CCCAGCTTTC CGAGAAATTG GGTTATCCGT TGCAGGCCGT CCATATTCCG	420

AAGACGGTGG ACAACGACCT GCCGATCACC GACTGCTGTC CGGGGTTCGG TTCGGTCGCC	480

AAGTACATAG CGGTATCGGT ACGCGAGGCG AGTTTCGACG TACGCTCCAT GGCTGCGACT	540

TCCACCTGCA TCTTCGTGCT GGAAGTCATG GGCCGCCACG CGGGCTGGAT CGCCGCCGCC	600

GGCGGTCTGG CGAGTGACGA GCGGCATGAG CTGGCTCTGG TCATCTTGTT TCCCGAACAG	660

GTGTTCGACC CGGAACGGTT TCTCCGGGCG GTGGACGAAA AGGTCCGGTC ACATGGCTAT	720

TGTTCGGTCG TGGTGTCGGA GGGCATTAGG GGCGCGGATG GCAGGTTCGT CGCCGAATCC	780

GGCAGCCGGG ACGTGTTCGG GCATGCTCGG CTCGGTGGGG TGGCGCCGGT CATCGCCGAC	840

CTGATCAAGG AGCGCCTGGG TTACAAATAC CACTGGGCCG TCGCCGATTA CCTGCAGCGC	900

GCGGCCCGGC ACATCGCCTC CCGCACGGAT GTCGAGCAGG CCTATGCGGT GGGGAAGGCG	960

GGCGTCGAGA TGGCTCTGAA AGGGCTCAGC GCCGTGATGC CGGCCATCGT GCGCACCTCG      1020

GATTCGCCTT ACCGTTGGGA AATCACGGCC GCCAGTCTGG CGGAGGTGGC CAACGTCGAA      1080

AAGAAAATGC CCCTCGAATT CATCAGCGCC GACGGTTTCG GCATCACCGA GGCCTGCCGC      1140

CGGTACCTCC GGCCTCTGAT CGAGGGCGAG GACTACCCTC CCTATGCCGG CGGTTTGCCG      1200

GATTATGTGA CATTGTGCAA TGTCGCTGTC CCGAAAAAAC TGGCCGCTTC GTTCAGCGTC      1260

tga								       1263			
<210> 5
<211> 1467
<212> DNA
<213> E.coli

<220>
<223> Pyruvate Kinase

<400> 5
atgACGAGGG GAATTCGCCG TACCAAGATC ATCGCCACGC TGGGGCCGGC TTCCGAGTCT	 60

CCGGAGATGC TCGAGAGAAT CCTGAAAGCC GGGGCCGACG TGGTCCGGCT GAATTTCTCC	120

CATGGTACGG CGGAGGAACA CCGCATCCGC GCCGAGCGGG TGCGGGAAAT CAGCCGGCGC	180

ATGCAGCGTT ATGTGGCCAT CCTGGCCGAT CTGCAGGGGC CCAAGATCCG TATCGCCCGC	240

TTCAAGGGCG ACCGCCAGGT CGTGCTGGAG GAAGGCCAGC CTTTCGACCT GGACACCGCC	300

TTTCCGCCGG ATCAGGGCGA TGAAACCCAG GTTGGCTGCG CCTATGAGGC GCTTCCGACG	360

GACGTCGAAG CGGGCGACAC CTTGCTGCTC AACGACGGTC TGATCGAGCT CAAGGTCAAA	420

TCGGTCGAAG GAACCCGCGT CAGATGCGTC GTCACCGTCG GCGGCGTGCT GTCCAACCAC	480

AAAGGCATCA ACAAGCTCGG CGGCGGTCTC TCGGCGCCGG CCCTGACCGA AAAGGACAAG	540

GCGGATCTGA AGACTGCCGT GGAGATCGGG GCCGACTATC TGGCGATTTC CTTTCCGCGT	600

TCGAAGGAAG ACATGCTGGA AGCCCGCGAA CTGTTGCACC GGGCCGGCAG TCACATGGGG	660

CTGGTGGCCA AGGTCGAGCG TGCGGAAGCC ATCAAGGATG GTGTGATCGA AGGGATCATC	720

GACGCTTCCG ACGCCATCAT GGTGGCGCGC GGCGACCTGG GCGTGGAGAT CGGCGACGCC	780

CGTCTGCCAC ATGAGCAGAA GAGGCTGATC CGCTTGGCAC GCAGCCGCAA CAAGGTCGTC	840

ATCACGGCCA CCCAGATGAT GGAGTCGATG ATCGAGAATC CTTTGCCGAC GCGGGCCGAG	900

GTCTCGGACG TGGCCAACGC CGTGATCGAC GGCACCGATG CCGTGATGCT GTCCGCCGAA	960

ACCGCCACGG GGAAGTTTCC GGACCGTACC GTGGCGGCGA TGGTGCGGGT TTGCAAGGAA      1020

GCGGAAAAAT ACCCGCGGAC GCGCCAATCG AGCCACCGCA TGGACGAGAA ATTCCACCGC      1080

ATCGACGAGG CCATCGCCAT GTCGGCGATG TATATCGCCA ACCACCTGCC GGTCCGGGCC      1140

ATCGGTGCCT TGACGGAATC GGGGTCGACG CCCCTGTGGA TGTCGCGCAT CAGTTCCGGC      1200

ATCCCGATCT TCGCCCTCAC GCCGCATGAG GCGGTGTGTC GGCGGGTGAC GCTGTTCCGG      1260

GGGGTCTATC CGATTTTTTT CAACGAGCGC GCCATCTCGG ATCACCACGT GCTGAACCGG      1320

GCGATCGCCG AAGAATTCCT TAAACGCAAT CTGGTGAAGA TGGACGATCT GGTCATCATG      1380

ACCAAAGGTG ATTTGACCGG CCGCACCGGT GGCACCAACG CCTTGAAGAT ATCGCGCATC      1440

AGCGACGTCA TCGCCGCCGC GCCTtga					       1467

<210> 6
<211> 1305
<212> DNA
<213> E.coli

<220>
<223> Isocitrate Lyase

<400> 6
atgAAAACCC GTACACAACA AATTGAAGAA TTACAGAAAG AGTGGACTCA ACCGCGTTGG	 60

GAAGGCATTA CTCGCCCATA CAGTGCGGAA GATGTGGTGA AATTACGCGG TTCAGTCAAT	120

CCTGAATGCA CGCTGGCGCA ACTGGGCGCA GCGAAAATGT GGCGTCTGCT GCACGGTGAG	180

TCGAAAAAAG GCTACATCAA CAGCCTCGGC GCACTGACTG GCGGTCAGGC GCTGCAACAG	240

GCGAAAGCGG GTATTGAAGC AGTCTATCTG TCGGGATGGC AGGTAGCGGC GGACGCTAAC	300

CTGGCGGCCA GCATGTATCC GGATCAGTCG CTCTATCCGG CAAACTCGGT GCCAGCTGTG	360

GTGGAGCGGA TCAACAACAC CTTCCGTCGT GCCGATCAGA TCCAATGGTC CGCGGGCATT	420

GAGCCGGGCG ATCCGCGCTA TGTCGATTAC TTCCTGCCGA TCGTTGCCGA TGCGGAAGCC	480

GGTTTTGGCG GTGTCCTGAA TGCCTTTGAA CTGATGAAAG CGATGATTGA AGCCGGTGCA	540

GCGGCAGTTC ACTTCGAAGA TCAGCTGGCG TCAGTGAAGA AATGCGGTCA CATGGGCGGC	600

AAAGTTTTAG TGCCAACTCA GGAAGCTATT CAGAAACTGG TCGCGGCGCG TCTGGCAGCT	660

GACGTGACGG GCGTTCCAAC CCTGCTGGTT GCCCGTACCG ATGCTGATGC GGCGGATCTG	720

ATCACCTCCG ATTGCGACCC GTATGACAGC GAATTTATTA CCGGCGAGCG TACCAGTGAA	780

GGCTTCTTCC GTACTCATGC GGGCATTGAG CAAGCGATCA GCCGTGGCCT GGCGTATGCG	840

CCATATGCTG ACCTGGTCTG GTGTGAAACC TCCACGCCGG ATCTGGAACT GGCGCGTCGC	900

TTTGCACAAG CTATCCACGC GAAATATCCG GGCAAACTGC TGGCTTATAA CTGCTCGCCG	960

TCGTTCAACT GGCAGAAAAA CCTCGACGAC AAAACTATTG CCAGCTTCCA GCAGCAGCTG      1020

TCGGATATGG GCTACAAGTT CCAGTTCATC ACCCTGGCAG GTATCCACAG CATGTGGTTC      1080

AACATGTTTG ACCTGGCAAA CGCCTATGCC CAGGGCGAGG GTATGAAGCA CTACGTTGAG      1140

AAAGTGCAGC AGCCGGAATT TGCCGCCGCG AAAGATGGCT ATACCTTCGT ATCTCACCAG      1200

CAGGAAGTGG GTACAGGTTA CTTCGATAAA GTGACGACTA TTATTCAGGG CGGCACGTCT      1260

TCAGTCACCG CGCTGACCGG CTCCACTGAA GAATCGCAGT TCtaa		       1305


<210> 7
<211> 2739
<212> DNA
<213> E.coli

<220>
<223> Citryl CoA lyase (D,F,E subunits)

<400> 7
	a. citD
atgAAAATAA ACCAGCCCGC CGTTGCAGGC ACCCTTGAGT CTGGGGATGT GATGATACGC	  60

ATCGCCCCAC TCGATACGCA GGATATCGAC CTGCAAATCA ATAGCAGCGT TGAGAAACAG	 120

TTTGGCGATG CAATTCGCAC CACCATTCTG GACGTTCTCG CCCGCTACAA CGTGCGCGGC	 180

GTACAGCTGA ATGTCGATGA CAAAGGCGCA CTGGACTGCA TTTTACGTGC ACGACTGGAA	 240

GCCCTGCTGG CACGCGCCAG CGGTATCCCG GCTCTGCCAT GGGAGGATTG CCAAtga	         297

	b. citF
atgACGCAGA AAATTGAACA ATCTCAACGA CAAGAACGGG TAGCGGCCTG GAATCGTCGC	  60

GCTGAATGCG ATCTTGCCGC TTTCCAGAAC TCGCCAAAGC AAACCTACCA GGCTGAAAAA	 120

GCGCGCGATC GCAAACTGTG CGCCAACCTG GAAGAAGCGA TTCGTCGCTC TGGTTTACAG	 180

GACGGCATGA CGGTTTCCTT CCATCACGCT TTCCGTGGCG GTGACCTGAC CGTCAATATG	 240

GTGATGGACG TCATCGCGAA GATGGGCTTT AAAAACCTGA CCCTGGCGTC CAGCTCCCTG	 300

AGTGATTGCC ATGCGCCGCT GGTAGAACAC ATTCGCCAGG GCGTGGTTAC CCGCATTTAT	 360

ACCTCCGGCC TGCGTGGTCC ACTGGCGGAA GAGATCTCCC GTGGTCTGCT GGCAGAACCG	 420

GTGCAGATCC ACTCTCACGG CGGTCGTGTG CATCTGGTAC AGAGCGGCGA ACTGAATATC	 480

GACGTGGCTT TCCTCGGCGT CCCGTCCTGT GATGAATTCG GTAATGCCAA CGGCTACACC	 540

GGTAAAGCCT GCTGCGGCTC CCTCGGCTAT GCAATAGTTG ATGCCGACAA CGCAAAACAG	 600

GTCGTGATGC TTACCGAAGA ACTGCTGCCT TATCCGCATA ATCCGGCAAG CATTGAGCAA	 660

GATCAGGTTG ATTTGATCGT CAAAGTTGAC CGCGTTGGCG ATGCTGCAAA AATCGGCGCT	 720

GGCGCGACCC GTATGACCAC TAACCCGCGC GAACTGCTTA TTGCCCGTAG CGCTGCGGAT	 780

GTGATTGTCA ACTCTGGCTA CTTCAAAGAA GGTTTCTCCA TGCAAACCGG CACCGGCGGC	 840

GCATCGCTGG CGGTAACCCG TTTCCTGGAA GACAAAATGC GTAGCCGCGA TATTCGCGCC	 900

GACTTCGCCC TTGGCGGTAT TACCGCGACG ATGGTTGACC TGCACGAAAA AGGTCTGATC	 960

CGCAAACTGC TGGATGTGCA GAGCTTTGAC AGCCATGCTG CGCAATCGCT GGCCCGTAAC	1020

CCCAATCACA TCGAAATCAG CGCCAACCAG TACGCTAACT GGGGTTCGAA AGGCGCATCG	1080

GTTGATCGTC TCGACGTGGT GGTACTGAGC GCGCTGGAAA TTGACACCCA GTTCAACGTT	1140

AACGTGCTGA CCGGCTCTGA CGGCGTACTG CGTGGTGCTT CCGGTGGTCA CTGCGATACC	1200

GCGATTGCCT CTGCGCTTTC CATCATCGTC GCGCCGCTGG TACGCGGTCG TATTCCGACT	1260

CTGGTGGATA ACGTACTGAC CTGCATCACC CCAGGCTCCA GTGTCGATAT TCTGGTCACA	1320

GACCACGGTA TCGCAGTTAA CCCGGCACGT CCGGAACTGG CAGAACGTCT GCAGGAAGCG	1380

GGCATTAAAG TGGTTTCCAT TGAGTGGCTG CGCGAACGTG CGCGTCTGCT GACCGGTGAA	1440

CCACAGCCGA TTGAATTCAC AGACCGCGTC GTTGCCGTTG TGCGTTACCG CGATGGCTCG	1500

GTGATCGATG TTGTGCATCA GGTGAAGGAA taa					1533



	c. citE
atgATTTCCG CTTCGCTGCA ACAACGTAAA ACTCGCACCC GCCGCAGCAT GTTGTTTGTG	  60

CCTGGTGCCA ATGCCGCGAT GGTCAGCAAC TCCTTCATCT ACCCGGCTGA TGCCCTGATG	 120

TTTGACCTCG AAGACTCCGT AGCATTGCGT GAAAAAGACA CCGCCCGCCG CATGGTTTAC	 180

CACGCGCTGC AACATCCGCT GTATCGCGAT ATTGAAACCA TTGTGCGTGT CAACGCGCTG	 240

GATTCCGAAT GGGGTGTTAA CGACCTGGAA GCCGTCGTTC GCGGTGGTGC GGACGTTGTG	 300

CGTCTGCCGA AAACCGATAC CGCTCAGGAT GTTCTGGATA TTGAAAAAGA GATCCTGCGT	 360

ATCGAAAAAG CCTGTGGTCG TGAACCCGGC AGCACCGGCC TGCTGGCGGC GATTGAATCT	 420

CCGCTGGGGA TTACCCGCGC AGTGGAAATC GCTCACGCTT CCGAGCGTTT GATCGGTATC	 480

GCCCTCGGTG CAGAAGACTA TGTGCGCAAC CTGCGTACAG AACGCTCCCC GGAAGGAACT	 540

GAACTGCTGT TCGCACGCTG TTCCATTTTG CAGGCCGCGC GCTCTGCGGG TATTCAGGCG	 600

TTCGATACCG TCTATTCCGA CGCTAACAAC GAAGCCGGAT TTCTGCAAGA AGCCGCCCAC	 660

ATCAAACAGC TGGGCTTTGA CGGCAAATCG CTGATCAACC CGCGTCAGAT TGATCTGCTG	 720

CACAACCTCT ACGCACCGAC CCAGAAAGAA GTGGATCACG CCCGCCGCGT CGTAGAAGCC	 780

GCTGAAGCCG CCGCTCGCGA AGGCCTCGGC GTGGTTTCCC TGAACGGCAA GATGGTGGAC 	 840

GGTCCGGTTA TCGATCGCGC CCGTCTGGTG CTCTCCCGTG CAGAACTTTC CGGCATCCGC	 900

GAAGAAtaa								 909

<210> 8
<211> 1602
<212> DNA
<213> E.coli

<220>
<223> Malate Synthase A

<400> 8
atgACTGAAC AGGCAACAAC AACCGATGAA CTGGCTTTCA CAAGGCCGTA TGGCGAGCAG	 60

GAGAAGCAAA TTCTTACTGC CGAAGCGGTA GAATTTCTGA CTGAGCTGGT GACGCATTTT	120

ACGCCACAAC GCAATAAACT TCTGGCAGCG CGCATTCAGC AGCAGCAAGA TATTGATAAC	180

GGAACGTTGC CTGATTTTAT TTCGGAAACA GCTTCCATTC GCGATGCTGA TTGGAAAATT	240

CGCGGGATTC CTGCGGACTT AGAAGACCGC CGCGTAGAGA TAACTGGCCC GGTAGAGCGC	300

AAGATGGTGA TCAACGCGCT CAACGCCAAT GTGAAAGTCT TTATGGCCGA TTTCGAAGAT	360

TCACTGGCAC CAGACTGGAA CAAAGTGATC GACGGGCAAA TTAACCTGCG TGATGCGGTT	420

AACGGCACCA TCAGTTACAC CAATGAAGCA GGCAAAATTT ACCAGCTCAA GCCCAATCCA	480

GCGGTTTTGA TTTGTCGGGT ACGCGGTCTG CACTTGCCGG AAAAACATGT CACCTGGCGT	540

GGTGAGGCAA TCCCCGGCAG CCTGTTTGAT TTTGCGCTCT ATTTCTTCCA CAACTATCAG	600

GCACTGTTGG CAAAGGGCAG TGGTCCCTAT TTCTATCTGC CGAAAACCCA GTCCTGGCAG	660

GAAGCGGCCT GGTGGAGCGA AGTCTTCAGC TATGCAGAAG ATCGCTTTAA TCTGCCGCGC	720

GGCACCATCA AGGCGACGTT GCTGATTGAA ACGCTGCCCG CCGTGTTCCA GATGGATGAA	780

ATCCTTCACG CGCTGCGTGA CCATATTGTT GGTCTGAACT GCGGTCGTTG GGATTACATC	840

TTCAGCTATA TCAAAACGTT GAAAAACTAT CCCGATCGCG TCCTGCCAGA CAGACAGGCA	900

GTGACGATGG ATAAACCATT CCTGAATGCT TACTCACGCC TGTTGATTAA AACCTGCCAT	960

AAACGCGGTG CTTTTGCGAT GGGCGGCATG GCGGCGTTTA TTCCGAGCAA AGATGAAGAG      1020

CACAATAACC AGGTGCTCAA CAAAGTAAAA GCGGATAAAT CGCTGGAAGC CAATAACGGT      1080

CACGATGGCA CATGGATCGC TCACCCAGGC CTTGCGGACA CGGCAATGGC GGTATTCAAC      1140

GACATTCTCG GCTCCCGTAA AAATCAGCTT GAAGTGATGC GCGAACAAGA CGCGCCGATT      1200

ACTGCCGATC AGCTGCTGGC ACCTTGTGAT GGTGAACGCA CCGAAGAAGG TATGCGCGCC      1260

AACATTCGCG TGGCTGTGCA GTACATCGAA GCGTGGATCT CTGGCAACGG CTGTGTGCCG      1320

ATTTATGGCC TGATGGAAGA TGCGGCGACG GCTGAAATTT CCCGTACCTC GATCTGGCAG      1380

TGGATCCATC ATCAAAAAAC GTTGAGCAAT GGCAAACCGG TGACCAAAGC CTTGTTCCGC      1440

CAGATGCTGG GCGAAGAGAT GAAAGTCATT GCCAGCGAAC TGGGCGAAGA ACGTTTCTCC      1500

CAGGGGCGTT TTGACGATGC CGCACGCTTG ATGGAACAGA TCACCACTTC CGATGAGTTA      1560

ATTGATTTCC TGACCCTGCC AGGCTACCGC CTGTTAGCGt aa			       1602


<210> 9
<211> 2037
<212> DNA
<213> E.coli

<220>
<223> Succinyl CoA synthetase(C, D subunits)

<400> 9
	a. sucD
atgTCCATTT TAATCGATAA AAACACCAAG GTTATCTGCC AGGGCTTTAC CGGTAGCCAG	 60

GGGACTTTCC ACTCAGAACA GGCCATTGCA TACGGCACTA AAATGGTTGG CGGCGTAACC	120

CCAGGTAAAG GCGGCACCAC CCACCTCGGC CTGCCGGTGT TCAACACCGT GCGTGAAGCC	180

GTTGCTGCCA CTGGCGCTAC CGCTTCTGTT ATCTACGTAC CAGCACCGTT CTGCAAAGAC	240

TCCATTCTGG AAGCCATCGA CGCAGGCATC AAACTGATTA TCACCATCAC TGAAGGCATC	300

CCGACGCTGG ATATGCTGAC CGTGAAAGTG AAGCTGGATG AAGCAGGCGT TCGTATGATC	360

GGCCCGAACT GCCCAGGCGT TATCACTCCG GGTGAATGCA AAATCGGTAT CCAGCCTGGT	420

CACATTCACA AACCGGGTAA AGTGGGTATC GTTTCCCGTT CCGGTACACT GACCTATGAA	480

GCGGTTAAAC AGACCACGGA TTACGGTTTC GGTCAGTCGA CCTGTGTCGG TATCGGCGGT	540

GACCCGATCC CGGGCTCTAA CTTTATCGAC ATTCTCGAAA TGTTCGAAAA AGATCCGCAG	600

ACCGAAGCGA TCGTGATGAT CGGTGAGATC GGCGGTAGCG CTGAAGAAGA AGCAGCTGCG	660

TACATCAAAG AGCACGTTAC CAAGCCAGTT GTGGGTTACA TCGCTGGTGT GACTGCGCCG	720

AAAGGCAAAC GTATGGGCCA CGCGGGTGCC ATCATTGCCG GTGGGAAAGG GACTGCGGAT	780

GAGAAATTCG CTGCTCTGGA AGCCGCAGGC GTGAAAACCG TTCGCAGCCT GGCGGATATC	840

GGTGAAGCAC TGAAAACTGT TCTGAAAtaa					870	


	b. sucC
atgAACTTAC ATGAATATCA GGCAAAACAA CTTTTTGCCC GCTATGGCTT ACCAGCACCG	 60

GTGGGTTATG CCTGTACTAC TCCGCGCGAA GCAGAAGAAG CCGCTTCAAA AATCGGTGCC	120

GGTCCGTGGG TAGTGAAATG TCAGGTTCAC GCTGGTGGCC GCGGTAAAGC GGGCGGTGTG	180

AAAGTTGTAA ACAGCAAAGA AGACATCCGT GCTTTTGCAG AAAACTGGCT GGGCAAGCGT	240

CTGGTAACGT ATCAAACAGA TGCCAATGGC CAACCGGTTA ACCAGATTCT GGTTGAAGCA	300

GCGACCGATA TCGCTAAAGA GCTGTATCTC GGTGCCGTTG TTGACCGTAG TTCCCGTCGT	360

GTGGTCTTTA TGGCCTCCAC CGAAGGCGGC GTGGAAATCG AAAAAGTGGC GGAAGAAACT	420

CCGCACCTGA TCCATAAAGT TGCGCTTGAT CCGCTGACTG GCCCGATGCC GTATCAGGGA	480

CGCGAGCTGG CGTTCAAACT GGGTCTGGAA GGTAAACTGG TTCAGCAGTT CACCAAAATC	540

TTCATGGGCC TGGCGACCAT TTTCCTGGAG CGCGACCTGG CGTTGATCGA AATCAACCCG	600

CTGGTCATCA CCAAACAGGG CGATCTGATT TGCCTCGACG GCAAACTGGG CGCTGACGGC	660

AACGCACTGT TCCGCCAGCC TGATCTGCGC GAAATGCGTG ACCAGTCGCA GGAAGATCCG	720

CGTGAAGCAC AGGCTGCACA GTGGGAACTG AACTACGTTG CGCTGGACGG TAACATCGGT	780

TGTATGGTTA ACGGCGCAGG TCTGGCGATG GGTACGATGG ACATCGTTAA ACTGCACGGC	840

GGCGAACCGG CTAACTTCCT TGACGTTGGC GGCGGCGCAA CCAAAGAACG TGTAACCGAA	900

GCGTTCAAAA TCATCCTCTC TGACGACAAA GTGAAAGCCG TTCTGGTTAA CATCTTCGGC	960

GGTATCGTTC GTTGCGACCT GATCGCTGAC GGTATCATCG GCGCGGTAGC AGAAGTGGGT      1020

GTTAACGTAC CGGTCGTGGT ACGTCTGGAA GGTAACAACG CCGAACTCGG CGCGAAGAAA      1080

CTGGCTGACA GCGGCCTGAA TATTATTGCA GCAAAAGGTC TGACGGATGC AGCTCAGCAG      1140

GTTGTTGCCG CAGTGGAGGG GAAAtaa					       1167


<210> 10
<211> 3300
<212> DNA
<213> E.coli

<220>
<223> Fumarate Reductase (A,B,C,D subunits)

<400> 10
	a. frdA
gtgCAAACCT TTCAAGCCGA TCTTGCCATT GTAGGCGCCG GTGGCGCGGG ATTACGTGCT	60 

GCAATTGCTG CCGCGCAGGC AAATCCGAAT GCAAAAATCG CACTAATCTC AAAAGTATAC	120 

CCGATGCGTA GCCATACCGT TGCTGCAGAA GGGGGCTCCG CCGCTGTCGC GCAGGATCAT	180 

GACAGCTTCG AATATCACTT TCACGATACA GTAGCGGGTG GCGACTGGTT GTGTGAGCAG	240 

GATGTCGTGG ATTATTTCGT CCACCACTGC CCAACCGAAA TGACCCAACT GGAACTGTGG	300 

GGATGCCCAT GGAGCCGTCG CCCGGATGGT AGCGTCAACG TACGTCGCTT CGGCGGCATG	360 

AAAATCGAGC GCACCTGGTT CGCCGCCGAT AAGACCGGCT TCCATATGCT GCACACGCTG	420 

TTCCAGACCT CTCTGCAATT CCCGCAGATC CAGCGTTTTG ACGAACATTT CGTGCTGGAT	480 

ATTCTGGTTG ATGATGGTCA TGTTCGCGGC CTGGTAGCAA TGAACATGAT GGAAGGCACG       540 

CTGGTGCAGA TCCGTGCTAA CGCGGTCGTT ATGGCTACTG GCGGTGCGGG TCGCGTTTAT	600 

CGTTACAACA CCAACGGCGG CATCGTTACC GGTGACGGTA TGGGTATGGC GCTAAGCCAC	660 

GGCGTTCCGC TGCGTGACAT GGAATTCGTT CAGTATCACC CAACCGGTCT GCCAGGTTCC	720 

GGTATCCTGA TGACCGAAGG TTGCCGCGGT GAAGGCGGTA TTCTGGTCAA CAAAAATGGC	780 

TACCGTTATC TGCAAGATTA CGGCATGGGC CCGGAAACTC CGCTGGGCGA GCCGAAAAAC	840 

AAATATATGG AACTGGGTCC ACGCGACAAA GTCTCTCAGG CCTTCTGGCA CGAATGGCGT	900 

AAAGGCAACA CCATCTCCAC GCCGCGTGGC GATGTGGTTT ATCTCGACTT GCGTCACCTC	960 

GGCGAGAAAA AACTGCATGA ACGTCTGCCG TTCATCTGCG AACTGGCGAA AGCGTACGTT      1020 

GGCGTCGATC CGGTTAAAGA ACCGATTCCG GTACGTCCGA CCGCACACTA CACCATGGGC      1080 

GGTATCGAAA CCGATCAGAA CTGTGAAACC CGCATTAAAG GTCTGTTCGC CGTGGGTGAA      1140 


TGTTCCTCTG TTGGTCTGCA CGGTGCAAAC CGTCTGGGTT CTAACTCCCT GGCGGAACTG      1200 

GTGGTCTTCG GCCGTCTGGC CGGTGAACAA GCGACAGAGC GTGCAGCAAC TGCCGGTAAT      1260 

GGCAACGAAG CGGCAATTGA AGCGCAGGCA GCTGGCGTTG AACAACGTCT GAAAGATCTG      1320 

GTTAACCAGG ATGGCGGCGA AAACTGGGCG AAGATCCGCG ACGAAATGGG CCTGGCTATG      1380 

GAAGAAGGCT GCGGTATCTA CCGTACGCCG GAACTGATGC AGAAAACCAT CGACAAGCTG      1440 

GCAGAGCTGC AGGAACGCTT CAAGCGCGTG CGCATCACCG ACACTTCCAG CGTGTTCAAC      1500 

ACCGACCTGC TCTACACCAT TGAACTGGGC CACGGTCTGA ACGTTGCTGA ATGTATGGCG      1560 

CACTCCGCAA TGGCACGTAA AGAGTCCCGC GGCGCGCACC AGCGTCTGGA CGAAGGTTGC      1620 

ACCGAGCGTG ACGACGTCAA CTTCCTCAAA CACACCCTCG CCTTCCGCGA TGCTGATGGC      1680 

ACGACTCGCC TGGAGTACAG CGACGTGAAG ATTACTACGC TGCCGCCAGC TAAACGCGTT      1740 

TACGGTGGCG AAGCGGATGC AGCCGATAAG GCGGAAGCAG CCAATAAGAA GGAGAAGGCG      1800 

AATGGCtga							       1809


	b. frdB
atgGCTGAGA TGAAAAACCT GAAAATTGAG GTGGTGCGCT ATAACCCGGA AGTCGATACC	 60

GCACCGCATA GCGCATTCTA TGAAGTGCCT TATGACGCAA CTACCTCATT ACTGGATGCG	120

CTGGGCTACA TCAAAGACAA CCTGGCACCG GACCTGAGCT ACCGCTGGTC CTGCCGTATG	180

GCGATTTGTG GTTCCTGCGG CATGATGGTT AACAACGTGC CAAAACTGGC ATGTAAAACC	240

TTCCTGCGTG ATTACACCGA CGGTATGAAG GTTGAAGCGT TAGCTAACTT CCCGATTGAA	300

CGCGATCTGG TGGTCGATAT GACCCACTTC ATCGAAAGTC TGGAAGCGAT CAAACCGTAC	360

ATCATCGGCA ACTCCCGCAC CGCGGATCAG GGTACTAACA TCCAGACCCC GGCGCAGATG	420

GCGAAGTATC ACCAGTTCTC CGGTTGCATC AACTGTGGTT TGTGCTACGC CGCGTGCCCG	480

CAGTTTGGCC TGAACCCAGA GTTCATCGGT CCGGCTGCCA TTACGCTGGC GCATCGTTAT	540

AACGAAGATA GCCGCGACCA CGGTAAGAAG GAGCGTATGG CGCAGTTGAA CAGCCAGAAC	600

GGCGTATGGA GCTGTACTTT CGTGGGCTAC TGCTCCGAAG TCTGCCCGAA ACACGTCGAT	660

CCGGCTGCGG CCATTCAGCA GGGCAAAGTA GAAAGTTCGA AAGACTTTCT TATCGCGACC	720

CTGAAACCAC GCtaa							735


	c. frdC 
atgACGACTA AACGTAAACC GTATGTACGG CCAATGACGT CCACCTGGTG GAAAAAATTG	 60

CCGTTTTATC GCTTTTACAT GCTGCGCGAA GGCACGGCGG TTCCGGCTGT GTGGTTCAGC	120

ATTGAACTGA TTTTCGGGCT GTTTGCCCTG AAAAATGGCC CGGAAGCCTG GGCGGGATTC	180	

GTCGACTTTT TACAAAACCC GGTTATCGTG ATCATTAACC TGATCACTCT GGCGGCAGCT	240

CTGCTGCACA CCAAAACCTG GTTTGAACTG GCACCGAAAG CGGCCAATAT CATTGTAAAA	300

GACGAAAAAA TGGGACCAGA GCCAATTATC AAAAGTCTCT GGGCGGTAAC TGTGGTTGCC	360

ACCATCGTAA TCCTGTTTGT TGCCCTGTAC TGGtaa				        396


	d. frdD
atgATTAATC CAAATCCAAA GCGTTCTGAC GAACCGGTAT TCTGGGGCCT CTTCGGGGCC	60

GGTGGTATGT GGAGCGCCAT CATTGCGCCG GTGATGATCC TGCTGGTGGG TATTCTGCTG	120

CCACTGGGGT TGTTTCCGGG TGATGCGCTG AGCTACGAGC GCGTTCTGGC GTTCGCGCAG	180

AGCTTCATTG GTCGCGTATT CCTGTTCCTG ATGATCGTTC TGCCGCTGTG GTGTGGTTTA	240

CACCGTATGC ACCACGCGAT GCACGATCTG AAAATCCACG TACCTGCGGG CAAATGGGTT	300

TTCTACGGTC TGGCTGCTAT CCTGACAGTT GTCACGCTGA TTGGTGTCGT TACAATCtaa	360

<210> 11
<211> 1191
<212> DNA
<213> E.coli

<220>
<223> Aspartate transaminase

<400> 11
atgTTTGAGA ACATTACCGC CGCTCCTGCC GACCCGATTC TGGGCCTGGC CGATCTGTTT	 60 

CGTGCCGATG AACGTCCCGG CAAAATTAAC CTCGGGATTG GTGTCTATAA AGATGAGACG	120 

GGCAAAACCC CGGTACTGAC CAGCGTGAAA AAGGCTGAAC AGTATCTGCT CGAAAATGAA	180 

ACCACCAAAA ATTACCTCGG CATTGACGGC ATCCCTGAAT TTGGTCGCTG CACTCAGGAA	240 

CTGCTGTTTG GTAAAGGTAG CGCCCTGATC AATGACAAAC GTGCTCGCAC GGCACAGACT	300 

CCGGGGGGCA CTGGCGCACT ACGCGTGGCT GCCGATTTCC TGGCAAAAAA TACCAGCGTT	360 

AAGCGTGTGT GGGTGAGCAA CCCAAGCTGG CCGAACCATA AGAGCGTCTT TAACTCTGCA	420 

GGTCTGGAAG TTCGTGAATA CGCTTATTAT GATGCGGAAA ATCACACTCT TGACTTCGAT	480 

GCACTGATTA ACAGCCTGAA TGAAGCTCAG GCTGGCGACG TAGTGCTGTT CCATGGCTGC	540 

TGCCATAACC CAACCGGTAT CGACCCTACG CTGGAACAAT GGCAAACACT GGCACAACTC	600	 

TCCGTTGAGA AAGGCTGGTT ACCGCTGTTT GACTTCGCTT ACCAGGGTTT TGCCCGTGGT	660 

CTGGAAGAAG ATGCTGAAGG ACTGCGCGCT TTCGCGGCTA TGCATAAAGA GCTGATTGTT	720 

GCCAGTTCCT ACTCTAAAAA CTTTGGCCTG TACAACGAGC GTGTTGGCGC TTGTACTCTG	780 

GTTGCTGCCG ACAGTGAAAC CGTTGATCGC GCATTCAGCC AAATGAAAGC GGCGATTCGC	840 

GCTAACTACT CTAACCCACC AGCACACGGC GCTTCTGTTG TTGCCACCAT CCTGAGCAAC	900 

GATGCGTTAC GTGCGATTTG GGAACAAGAG CTGACTGATA TGCGCCAGCG TATTCAGCGT	960 

ATGCGTCAGT TGTTCGTCAA TACGCTGCAG GAAAAAGGCG CAAACCGCGA CTTCAGCTTT      1020 

ATCATCAAAC AGAACGGCAT GTTCTCCTTC AGTGGCCTGA CAAAAGAACA AGTGCTGCGT      1080 

CTGCGCGAAG AGTTTGGCGT ATATGCGGTT GCTTCTGGTC GCGTAAATGT GGCCGGGATG      1140 

ACACCAGATA ACATGGCTCC GCTGTGCGAA GCGATTGTGG CAGTGCTGta a	       1191

<210> 12
<211> 312
<212> PRT
<213> E.coli

<220>
<223> Malate dehydrogenase

<400> 12
MKVAVLGAAG GIGQALALLL KTQLPSGSEL SLYDIAPVTP GVAVDLSHIP TAVKIKGFSG	 60

EDATPALEGA DVVLISAGVA RKPGMDRSDL FNVNAGIVKN LVQQVAKTCP KACIGIITNP	120

VNTTVAIAAE VLKKAGVYDK NKLFGVTTLD IIRSNTFVAE LKGKQPGEVE VPVIGGHSGV	180

TILPLLSQVP GVSFTEQEVA DLTKRIQNAG TEVVEAKAGG GSATLSMGQA AARFGLSLVR	240

ALQGEQGVVE CAYVEGDGQY ARFFSQPLLL GKNGVEERKS IGTLSAFEQN ALEGMLDTLK	300

KDIALGEEFV NK								312

<210> 13
<211> 1036
<212> PRT
<213> P.aeruginosa

<220>
<223> Pyruvate Carboxylase

<400> 13
MTAPPFNALL IANRGEIAIR IARACADLGI RSVAVFAEDD AASLHVRKAD VALPLAGRGV	 60

AAYLDMDRLV ALALEQGCEA IHPGYGFLAE NGEFARRCQR AGIHFVGPQA EVLDLLGDKA	120

AARALAERLE VPLVAGINRA VSVEEAEAFL EGLGDGAAVM LKALAGGGGR GMRAVEEVAQ	180  

LADAYRRCRA EAQAAFGRDE LYVEQRVARA RHIEVQVLGD GSGAVSHLWE RDCSLQRRQQ	240

KLLEIAPSPD LPEATREALI DCALRMAGAV RYRGIGTFEF LVDEERPGHF YFMEANPRIQ	300

VEHTVTEEVT GVDLLHAQLR LAAGMELAAL GLERPPAIGG CAVQLRINLE TLAVDGSARP	360

AVGTIGAYEP PSGPGLRVDG YGYAGYRVSP SYDSLLAKLV VRGADYPAAL RRAYRALCEF	420

RLEGVASNLD LLRNLLLHPA VQANRVDTRF VESHLETLLA PIPASHPRLR AECPLAEDAA	480

PARVEAPLGS LPLSAPSSGV LVALEVAEGE RVRAGQRVAI LEAMKMEFEV KAPGGGIVRR	520

LAASLGEPLE EGATLLFLEP TEDDDEQAPT EQALDLAHIR ADLAEVLERQ AALGDERRPQ	540

ALARRRKTGQ RTARENVLDL LDEGSFSEYG GFALAAQRRR RSAEELLELS PADGLVAGTG	600

TVGAASFGVQ AARCLVLAYD YTVFAGTQGV MNHKKTDRLL GLAEQWRLPL VLFAEGGGGR	660

PGDTDFVGVA GLDCHTFVGM ARLSGLVPLV GVVSGRCFAG NAALLGCCDV IIATRDATIG	720

MAGPAMIEGG GLGRFAAEEV GPTGVQGPNG VIDVLVEDEA EAVAVARRYL GYFQGPLPDW	780

SCADQRELRH LVPENRLRAY DIRQAIEVLA DRGSVLELRR QFAPGLVTAL LRIEGRAFGL	840

IANNPGHLGG AIDAAAGDKA ARFMQLCDAF DIPIVSLCDT PGFMVGPEAE KQATVRHVSR	900

MFVSAASLTV PFFTVVLRKG YGLGAQAMAA GSFHSPLFTV AWPSGEFGAM GLEGAVRLGF	960

AKELAAEEDP QRREALFRGM VDKAYRNGKA LNMASYLEID AVIDPAETRA WLLRGLAVAG      1020

EPVPRAGRKR PFVDTW						       1036
		
<210> 14
<211> 883
<212> PRT
<213> E.coli

<220>
<223> Phosphoenol pyruvate carboxylase

<400> 14
MNEQYSALRS NVSMLGKVLG ETIKDALGEH ILERVETIRK LSKSSRAGND ANRQELLTTL	 60

QNLSNDELLP VARAFSQFLN LANTAEQYHS ISPKGEAASN PEVIARTLRK LKNQPELSED	120

TIKKAVESLS LELVLTAHPT EITRRTLIHK MVEVNACLKQ LDNKDIADYE HNQLMRRLRQ	180

LIAQSWHTDE IRKLRPSPVD EAKWGFAVVE NSLWQGVPNY LRELNEQLEE NLGYKLPVEF	240

VPVRFTSWMG GDRDGNPNVT ADITRHVLLL SRWKATDLFL KDIQVLVSEL SMVEATPELL	300

ALVGEEGAAE PYRYLMKNLR SRLMATQAWL EARLKGEELP KPEGLLTQNE ELWEPLYACY	360

QSLQACGMGI IANGDLLDTL RRVKCFGVPL VRIDIRQEST RHTEALGELT RYLGIGDYES	420

WSEADKQAFL IRELNSKRPL LPRNWQPSAE TREVLDTCQV IAEAPQGSIA AYVISMAKTP	480

SDVLAVHLLL KEAGIGFAMP VAPLFETLDD LNNANDVMTQ LLNIDWYRGL IQGKQMVMIG	540

YSDSAKDAGV MAASWAQYQA QDALIKTCEK AGIELTLFHG RGGSIGRGGA PAHAALLSQP	600

PGSLKGGLRV TEQGEMIRFK YGLPEITVSS LSLYTGAILE ANLLPPPEPK ESWRRIMDEL	660

SVISCDVYRG YVRENKDFVP YFRSATPEQE LGKLPLGSRP AKRRPTGGVE SLRAIPWIFA	720

WTQNRLMLPA WLGAGTALQK VVEDGKQSEL EAMCRDWPFF STRLGMLEMV FAKADLWLAE	780

YYDQRLVDKA LWPLGKELRN LQEEDIKVVL AIANDSHLMA DLPWIAESIQ LRNIYTDPLN	840

VLQAELLHRS RQAEKEGQEP DPRVEQALMV TIAGIAAGMR NTG				883


<210> 15
<211> 420
<212> PRT
<213> M. capsulatus Bath

<220>
<223> Phosphoenol pyruvate carboxylase

<400> 15
MAARNAFYAQ SGGVTAVINA SACGVLETAR QYPDRIGTVY AGRNGIVGAL TEDLIDTGQE	 60

SAEAIAALRH TPSGAFGSCR YKLKGLEENR AQYERLIEVF RAHDIGYFFY NGGGDSADTC	120

LKVSQLSEKL GYPLQAVHIP KTVDNDLPIT DCCPGFGSVA KYIAVSVREA SFDVRSMAAT	180

STCIFVLEVM GRHAGWIAAA GGLASDERHE LALVILFPEQ VFDPERFLRA VDEKVRSHGY	240

CSVVVSEGIR GADGRFVAES GSRDVFGHAR LGGVAPVIAD LIKERLGYKY HWAVADYLQR	300

AARHIASRTD VEQAYAVGKA GVEMALKGLS AVMPAIVRTS DSPYRWEITA ASLAEVANVE	360

KKMPLEFISA DGFGITEACR RYLRPLIEGE DYPPYAGGLP DYVTLCNVAV PKKLAASFSV	420

<210> 16
<211> 488
<212> PRT
<213> E.coli

<220>
<223> Pyruvate Kinase

<400> 16
MTRGIRRTKI IATLGPASES PEMLERILKA GADVVRLNFS HGTAEEHRIR AERVREISRR	  60

MQRYVAILAD LQGPKIRIAR FKGDRQVVLE EGQPFDLDTA FPPDQGDETQ VGCAYEALPT	 120

DVEAGDTLLL NDGLIELKVK SVEGTRVRCV VTVGGVLSNH KGINKLGGGL SAPALTEKDK	 180

ADLKTAVEIG ADYLAISFPR SKEDMLEARE LLHRAGSHMG LVAKVERAEA IKDGVIEGII	 240

DASDAIMVAR GDLGVEIGDA RLPHEQKRLI RLARSRNKVV ITATQMMESM IENPLPTRAE	 300

VSDVANAVID GTDAVMLSAE TATGKFPDRT VAAMVRVCKE AEKYPRTRQS SHRMDEKFHR	 360

IDEAIAMSAM YIANHLPVRA IGALTESGST PLWMSRISSG IPIFALTPHE AVCRRVTLFR	 420

GVYPIFFNER AISDHHVLNR AIAEEFLKRN LVKMDDLVIM TKGDLTGRTG GTNALKISRI	 480

SDVIAAAP								 488

<210> 17
<211> 434
<212> PRT
<213> E.coli

<220>
<223> Isocitrate Lyase

<400> 17

PROTEIN
MKTRTQQIEE LQKEWTQPRW EGITRPYSAE DVVKLRGSVN PECTLAQLGA AKMWRLLHGE	  60

SKKGYINSLG ALTGGQALQQ AKAGIEAVYL SGWQVAADAN LAASMYPDQS LYPANSVPAV	 120

VERINNTFRR ADQIQWSAGI EPGDPRYVDY FLPIVADAEA GFGGVLNAFE LMKAMIEAGA	 180

AAVHFEDQLA SVKKCGHMGG KVLVPTQEAI QKLVAARLAA DVTGVPTLLV ARTDADAADL	 240

ITSDCDPYDS EFITGERTSE GFFRTHAGIE QAISRGLAYA PYADLVWCET STPDLELARR	 300

FAQAIHAKYP GKLLAYNCSP SFNWQKNLDD KTIASFQQQL SDMGYKFQFI TLAGIHSMWF	 360

NMFDLANAYA QGEGMKHYVE KVQQPEFAAA KDGYTFVSHQ QEVGTGYFDK VTTIIQGGTS	 420

SVTALTGSTE ESQF								 434

<210> 18
<211> 910
<212> PRT
<213> E.coli

<220>
<223> Citryl CoA lyase (D,F,E subunits)

<400> 18
	a.	citD
MKINQPAVAG TLESGDVMIR IAPLDTQDID LQINSSVEKQ FGDAIRTTIL DVLARYNVRG	   60

VQLNVDDKGA LDCILRARLE ALLARASGIP ALPWEDCQ				   98

	b.	citF
MTQKIEQSQR QERVAAWNRR AECDLAAFQN SPKQTYQAEK ARDRKLCANL EEAIRRSGLQ	   60

DGMTVSFHHA FRGGDLTVNM VMDVIAKMGF KNLTLASSSL SDCHAPLVEH IRQGVVTRIY	  120

TSGLRGPLAE EISRGLLAEP VQIHSHGGRV HLVQSGELNI DVAFLGVPSC DEFGNANGYT	  180

GKACCGSLGY AIVDADNAKQ VVMLTEELLP YPHNPASIEQ DQVDLIVKVD RVGDAAKIGA	  240

GATRMTTNPR ELLIARSAAD VIVNSGYFKE GFSMQTGTGG ASLAVTRFLE DKMRSRDIRA	  300

DFALGGITAT MVDLHEKGLI RKLLDVQSFD SHAAQSLARN PNHIEISANQ YANWGSKGAS	  360

VDRLDVVVLS ALEIDTQFNV NVLTGSDGVL RGASGGHCDT AIASALSIIV APLVRGRIPT	  420

LVDNVLTCIT PGSSVDILVT DHGIAVNPAR PELAERLQEA GIKVVSIEWL RERARLLTGE	  480

PQPIEFTDRV VAVVRYRDGS VIDVVHQVKE					  510

	c.	citE
MISASLQQRK TRTRRSMLFV PGANAAMVSN SFIYPADALM FDLEDSVALR EKDTARRMVY	   60

HALQHPLYRD IETIVRVNAL DSEWGVNDLE AVVRGGADVV RLPKTDTAQD VLDIEKEILR	  120

IEKACGREPG STGLLAAIES PLGITRAVEI AHASERLIGI ALGAEDYVRN LRTERSPEGT	  180

ELLFARCSIL QAARSAGIQA FDTVYSDANN EAGFLQEAAH IKQLGFDGKS LINPRQIDLL	  240

HNLYAPTQKE VDHARRVVEA AEAAAREGLG VVSLNGKMVD GPVIDRARLV LSRAELSGIR	  300

EE									  302

<210> 19
<211> 533
<212> PRT
<213> E.coli

<220>
<223> Malate Synthase A

<400> 19
MTEQATTTDE LAFTRPYGEQ EKQILTAEAV EFLTELVTHF TPQRNKLLAA RIQQQQDIDN	   60

GTLPDFISET ASIRDADWKI RGIPADLEDR RVEITGPVER KMVINALNAN VKVFMADFED	  120

SLAPDWNKVI DGQINLRDAV NGTISYTNEA GKIYQLKPNP AVLICRVRGL HLPEKHVTWR	  180

GEAIPGSLFD FALYFFHNYQ ALLAKGSGPY FYLPKTQSWQ EAAWWSEVFS YAEDRFNLPR	  240

GTIKATLLIE TLPAVFQMDE ILHALRDHIV GLNCGRWDYI FSYIKTLKNY PDRVLPDRQA	  300

VTMDKPFLNA YSRLLIKTCH KRGAFAMGGM AAFIPSKDEE HNNQVLNKVK ADKSLEANNG	  360

HDGTWIAHPG LADTAMAVFN DILGSRKNQL EVMREQDAPI TADQLLAPCD GERTEEGMRA	  420

NIRVAVQYIE AWISGNGCVP IYGLMEDAAT AEISRTSIWQ WIHHQKTLSN GKPVTKALFR	  480

QMLGEEMKVI ASELGEERFS QGRFDDAARL MEQITTSDEL IDFLTLPGYR LLA		  533


<210> 20
<211> 677
<212> PRT
<213> E.coli

<220>
<223> Succinyl CoA synthetase(C, D subunits)

<400> 20
       a.   sucD
MSILIDKNTK VICQGFTGSQ GTFHSEQAIA YGTKMVGGVT PGKGGTTHLG LPVFNTVREA	   60

VAATGATASV IYVPAPFCKD SILEAIDAGI KLIITITEGI PTLDMLTVKV KLDEAGVRMI	  120

GPNCPGVITP GECKIGIQPG HIHKPGKVGI VSRSGTLTYE AVKQTTDYGF GQSTCVGIGG	  180

DPIPGSNFID ILEMFEKDPQ TEAIVMIGEI GGSAEEEAAA YIKEHVTKPV VGYIAGVTAP	  240

KGKRMGHAGA IIAGGKGTAD EKFAALEAAG VKTVRSLADI GEALKTVLK			  289

	b.   sucC
MNLHEYQAKQ LFARYGLPAP VGYACTTPRE AEEAASKIGA GPWVVKCQVH AGGRGKAGGV	   60

KVVNSKEDIR AFAENWLGKR LVTYQTDANG QPVNQILVEA ATDIAKELYL GAVVDRSSRR	  120

VVFMASTEGG VEIEKVAEET PHLIHKVALD PLTGPMPYQG RELAFKLGLE GKLVQQFTKI	  180

FMGLATIFLE RDLALIEINP LVITKQGDLI CLDGKLGADG NALFRQPDLR EMRDQSQEDP	  240

REAQAAQWEL NYVALDGNIG CMVNGAGLAM GTMDIVKLHG GEPANFLDVG GGATKERVTE	  300

AFKIILSDDK VKAVLVNIFG GIVRCDLIAD GIIGAVAEVG VNVPVVVRLE GNNAELGAKK	  360

LADSGLNIIA AKGLTDAAQQ VVAAVEGK						  388

<210> 21
<211> 1076
<212> PRT
<213> E.coli

<220>
<223> Fumarate Reductase (A,B,C,D subunits)

<400> 21
       a.	FrdA
MQTFQADLAI VGAGGAGLRA AIAAAQANPN AKIALISKVY PMRSHTVAAE GGSAAVAQDH	   60

DSFEYHFHDT VAGGDWLCEQ DVVDYFVHHC PTEMTQLELW GCPWSRRPDG SVNVRRFGGM	  120

KIERTWFAAD KTGFHMLHTL FQTSLQFPQI QRFDEHFVLD ILVDDGHVRG LVAMNMMEGT	  180

LVQIRANAVV MATGGAGRVY RYNTNGGIVT GDGMGMALSH GVPLRDMEFV QYHPTGLPGS	  240

GILMTEGCRG EGGILVNKNG YRYLQDYGMG PETPLGEPKN KYMELGPRDK VSQAFWHEWR	  300

KGNTISTPRG DVVYLDLRHL GEKKLHERLP FICELAKAYV GVDPVKEPIP VRPTAHYTMG	  360

GIETDQNCET RIKGLFAVGE CSSVGLHGAN RLGSNSLAEL VVFGRLAGEQ ATERAATAGN	  420

GNEAAIEAQA AGVEQRLKDL VNQDGGENWA KIRDEMGLAM EEGCGIYRTP ELMQKTIDKL	  480

AELQERFKRV RITDTSSVFN TDLLYTIELG HGLNVAECMA HSAMARKESR GAHQRLDEGC	  540

TERDDVNFLK HTLAFRDADG TTRLEYSDVK ITTLPPAKRV YGGEADAADK AEAANKKEKA	  600

NG									  602

       b.	FrdB
MAEMKNLKIE VVRYNPEVDT APHSAFYEVP YDATTSLLDA LGYIKDNLAP DLSYRWSCRM	   60

AICGSCGMMV NNVPKLACKT FLRDYTDGMK VEALANFPIE RDLVVDMTHF IESLEAIKPY	  120

IIGNSRTADQ GTNIQTPAQM AKYHQFSGCI NCGLCYAACP QFGLNPEFIG PAAITLAHRY	  180

NEDSRDHGKK ERMAQLNSQN GVWSCTFVGY CSEVCPKHVD PAAAIQQGKV ESSKDFLIAT	  240

LKPR									  244

       c.	FrdC
MTTKRKPYVR PMTSTWWKKL PFYRFYMLRE GTAVPAVWFS IELIFGLFAL KNGPEAWAGF	   60

VDFLQNPVIV IINLITLAAA LLHTKTWFEL APKAANIIVK DEKMGPEPII KSLWAVTVVA	  120

TIVILFVALY W								  131

       d.	FrdD
MINPNPKRSD EPVFWGLFGA GGMWSAIIAP VMILLVGILL PLGLFPGDAL SYERVLAFAQ	   60

SFIGRVFLFL MIVLPLWCGL HRMHHAMHDL KIHVPAGKWV FYGLAAILTV VTLIGVVTI	   99

<210> 22
<211> 1191
<212> PRT
<213> E.coli

<220>
<223> Aspartate transaminase

<400> 22
MFENITAAPA DPILGLADLF RADERPGKIN LGIGVYKDET GKTPVLTSVK KAEQYLLENE	    60

TTKNYLGIDG IPEFGRCTQE LLFGKGSALI NDKRARTAQT PGGTGALRVA ADFLAKNTSV	   120

KRVWVSNPSW PNHKSVFNSA GLEVREYAYY DAENHTLDFD ALINSLNEAQ AGDVVLFHGC	   180

CHNPTGIDPT LEQWQTLAQL SVEKGWLPLF DFAYQGFARG LEEDAEGLRA FAAMHKELIV	   240

ASSYSKNFGL YNERVGACTL VAADSETVDR AFSQMKAAIR ANYSNPPAHG ASVVATILSN	   300

DALRAIWEQE LTDMRQRIQR MRQLFVNTLQ EKGANRDFSF IIKQNGMFSF SGLTKEQVLR	   360

LREEFGVYAV ASGRVNVAGM TPDNMAPLCE AIVAVL					   396


