Chlorophyll c

Chlorophyll c refers to forms of chlorophyll found in certain marine algae, including the photosynthetic Chromista (e.g. diatoms and brown algae) and dinoflagellates.^[1][2][3] These pigments are characterized by their unusual chemical structure, with a porphyrin as opposed to the chlorin (which has a reduced ring D) as the core; they also do not have an isoprenoid tail. Both these features stand out from the other chlorophylls commonly found in algae and plants.^[2]

It has a blue-green color and is an accessory pigment, particularly significant in its absorption of light in the 447–520 nm wavelength region.^[3] Like chlorophyll a and chlorophyll b, it helps the organism gather light and passes a quanta of excitation energy through the light harvesting antennae to the photosynthetic reaction centre.^[2]

Chlorophyll c can be further divided into chlorophyll c₁, chlorophyll c₂,^[3] and chlorophyll c₃,^[4] plus at least eight other more recently found subtypes.^[5]

Chlorophyll c1

Chlorophyll c₁ is a common form of chlorophyll c. It differs from chlorophyll c₂ in its C8 group, having an ethyl group instead of vinyl group (C-C single bond instead of C=C double bond). Its absorption maxima are around 444, 577, 626 nm and 447, 579, 629 nm in diethyl ether and acetone respectively.^[6]

Chlorophyll c2

Chlorophyll c₂ is the most common form of chlorophyll c.^[7] Its absorption maxima are around 447, 580, 627 nm and 450, 581, 629 nm in diethyl ether and acetone respectively.^[6]

Chlorophyll c3

Chlorophyll c₃ is a form of chlorophyll c found in microalga Emiliania huxleyi, identified in 1989.^[4] Its absorption maxima are around 452, 585, 625 nm and 452, 585, 627 nm in diethyl ether and acetone respectively.^[6]

Biosynthesis

Chlorophyll c synthesis branches off early from the typical Chlorophyllide synthesis pathway, after divinylprotochlorophyllide (DV-PChlide) is formed. It has been established that DV-PChlide and MV-PChlide are processed directly by a 17¹ oxidase (CHLC, chlorophyll c synthase) into Chl c₂ and Chl c₁, respectively.^[8] The 17¹ oxidtion was proposed to proceed by "hydroxylation of the 17-propionate reside at the 17¹-position and successive dehydration to the 17-acrylate residue."^[8][9] An 8-vinyl reductase (elaborating on the promiscuous behavior of ferredoxin-type 3,8-divinyl chlorophyllide reductase) could also convert Chl c₂ into Chl c₁. The two steps could be swapped for the same effect.^[10]

Structure

Chlorophyll c1	Chlorophyll c2	Chlorophyll c3
Names IUPAC name [(2E)-3-[14-Ethyl-21-(methoxycarbonyl)-4,8,13,18-tetramethyl-20-oxo-9-vinyl-3,4-didehydro-3-phorbinyl-κ2N23,N25]acrylato(2-)]magnesium Identifiers CAS Number 11003-45-5 Y c1: 18901-56-9 Y c2: 27736-03-4 Y c3: 111308-93-1 Y 3D model (JSmol) Interactive image c1: Interactive image Beilstein Reference 5801077, 6996880 ChEBI CHEBI:38202 ChemSpider 21865345 PubChem CID 25245630 UNII 1A9E276K41 Y c1: 008W2KH70E Y c2: 8GAP92KIWW Y c3: FMN10170B8 Y InChI InChI=1S/C35H32N4O5.Mg/c1-8-19-15(3)22-12-24-17(5)21(10-11-28(40)41)32(38-24)30-31(35(43)44-7)34(42)29-18(6)25(39-33(29)30)14-27-20(9-2)16(4)23(37-27)13-26(19)36-22;/h8,10-14,31H,1,9H2,2-7H3,(H3,36,37,38,39,40,41,42);/q;+2/p-2/b11-10+,22-12-,23-13-,24-12-,25-14-,26-13-,27-14-,32-30-; Key: DGNIJJSSARBJSH-QRKQXEOSSA-L SMILES CCC1=C(C)/C2=C/c3c(C=C)c(C)c4\C=C5/N=C(C(\C=C\C(O)=O)=C/5C)C5=c6c(C(=O)C5C(=O)OC)c(C)c(=CC1=N\2)n6[Mg]n34 c1: COC(=O)C9C(=O)c6c(C)c3n7c6c9c2c(C=CC(=O)O)c(C)c1cc5n8c(cc4n([Mg]78n12)c(c=3)c(CC)c4c)c(C=C)c5C Properties Chemical formula C35H30MgN4O5 Molar mass 610.953 g·mol−1 Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa). Y verify (what is YN ?) Infobox references	Names IUPAC name [(2E)-3-[21-(Methoxycarbonyl)-4,8,13,18-tetramethyl-20-oxo-9,14-divinyl-3,4-didehydro-3-phorbinyl-κ2N23,N25]acrylato(2-)]magnesium Identifiers CAS Number 27736-03-4 Y 3D model (JSmol) Interactive image Interactive image Beilstein Reference 5801049 6996841 ChEBI CHEBI:38203 ChemSpider 21865346 PubChem CID 16070018 UNII 8GAP92KIWW InChI InChI=1S/C35H30N4O5.Mg/c1-8-19-15(3)22-12-24-17(5)21(10-11-28(40)41)32(38-24)30-31(35(43)44-7)34(42)29-18(6)25(39-33(29)30)14-27-20(9-2)16(4)23(37-27)13-26(19)36-22;/h8-14,31H,1-2H2,3-7H3,(H3,36,37,38,39,40,41,42);/q;+2/p-2/b11-10+,22-12?,23-13?,24-12?,25-14?,26-13?,27-14?,32-30?; Key: QDRBYWCRXZZVLY-JUQUGTHISA-L SMILES CC1=C(C2=CC3=NC(=CC4=C(C5=C([N-]4)C(=C6C(=C(C(=N6)C=C1[N-]2)C)C=CC(=O)O)C(C5=O)C(=O)OC)C)C(=C3C)C=C)C=C.[Mg+2] COC(=O)C9C(=O)c6c(C)c3n7c6c9c2c(C=CC(=O)O)c(C)c1cc5n8c(cc4n([Mg]78n12)c(c=3)c(C=C)c4c)c(C=C)c5C Properties Chemical formula C35H28MgN4O5 Molar mass 608.937 g·mol−1 Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa). Y verify (what is YN ?) Infobox references	Identifiers CAS Number 111308-93-1 Y 3D model (JSmol) Interactive image ChemSpider 32699592 PubChem CID 71587417 UNII FMN10170B8 InChI InChI=1S/C36H30N4O7.Mg/c1-8-18-15(3)21-12-22-16(4)20(10-11-27(41)42)32(39-22)30-31(36(45)47-7)34(43)28-17(5)23(40-33(28)30)13-25-19(9-2)29(35(44)46-6)26(38-25)14-24(18)37-21;/h8-14,31,38,43H,1-2H2,3-7H3,(H,41,42);/q;+2/p-2/b11-10+,21-12?,25-13?,26-14?,32-30?;/t31-;/m1./s1 Key: CWLZENTWIZFJMW-XUGDHDJXSA-L SMILES CC1=C(C2=NC1=CC3=NC(=C4C(C(=C5C4=NC(=C5C)C=C6C(=C(C(=C2)N6)C(=O)OC)C=C)[O-])C(=O)OC)C(=C3C)C=CC(=O)[O-])C=C.[Mg+2] Properties Chemical formula C36H28MgN4O7 Molar mass 652.946 g·mol−1 Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa). Infobox references