Physcomitrella patens      Pyrenoid matrix


※ Pyrenoid matrix introduction

    Pyrenoids are non-membrane-bound, proteinaceous structures that contain a matrix packed with the CO2-fixing enzyme Rubisco. In many species, the matrix is traversed by membrane tubules that are continuous with the photosynthetic thylakoid membranes (1). Pyrenoids are a central feature of the algal CO2 concentrating mechanism, which supplies Rubisco with a high concentration of its substrate CO2, enabling more efficient carbon capture than that of most land plants. Pyrenoids are found within the chloroplasts of a diverse array of photosynthetic eukaryotes, including nearly all freshwater and marine algae, as well as a group of non-vascular plants (2).

Reference
1. Freeman R. E., Xu B., et al. (2017) The Eukaryotic CO2-Concentrating Organelle Is Liquid-like and Exhibits Dynamic Reorganization. Cell, 171(1), 148-162.e19. PMID: 28938114
2. Wang Y., et al. (2015) The CO2 concentrating mechanism and photosynthetic carbon assimilation in limiting CO2 : how Chlamydomonas works against the gradient. Plant J., 82(3), 429-48. PMID: 25765072


There are 46 genes.  Reviewed (0 or Unreviewed (46

No.StatusDrLLPS IDEnsemble Gene IDUniProt AccessionGene Name
1
LLPS-Php-a033
Pp3c2_6110
2
LLPS-Php-0236
Pp3c8_15610
A0A2K1K7F0
PFK
3
LLPS-Php-a024
Pp3c20_13380
A0A2K1IV42
PFK
4
LLPS-Php-a016
Pp3c1_24000
A0A2K1L9I7
PHYPA_001097
5
LLPS-Php-a030
Pp3c1_26720
A9RQ00
PHYPA_001217
6
LLPS-Php-a026
Pp3c2_28040
A0A2K1L3A5
PHYPA_003298
7
LLPS-Php-a006
Pp3c2_36190
A9RAS2
PHYPA_003701
8
LLPS-Php-0363
Pp3c3_490
A0A2K1KSS5
PHYPA_003812
9
LLPS-Php-1165
Pp3c3_14480
A0A2K1KUG1
PHYPA_004423
10
LLPS-Php-a004
Pp3c3_20110
A9TCL7
PHYPA_004694
11
LLPS-Php-a008
Pp3c4_19340
A9RJI0
PHYPA_006443
12
LLPS-Php-a025
Pp3c5_6360
A0A2K1KIP7
PHYPA_007326
13
LLPS-Php-a019
Pp3c5_8810
A0A2K1KIZ9
PHYPA_007424
14
LLPS-Php-a028
Pp3c5_20370
A9SM81
PHYPA_007931
15
LLPS-Php-a032
Pp3c6_14950
A9TAP2
PHYPA_008957
16
LLPS-Php-a000
Pp3c8_2050
A0A2K1K5T3
PHYPA_011037
17
LLPS-Php-a018
Pp3c10_640
A9SML9
PHYPA_013235
18
LLPS-Php-0146
Pp3c10_3330
A0A2K1JXI7
PHYPA_013362
19
LLPS-Php-1168
Pp3c10_12280
A9SZ95
PHYPA_013786
20
LLPS-Php-a020
Pp3c10_25360
A0A2K1K0E4
PHYPA_014361
21
LLPS-Php-a002
Pp3c12_10330
A0A2K1JQJ3
PHYPA_016078
22
LLPS-Php-a003
Pp3c12_10340
A0A2K1JQ86
PHYPA_016079
23
LLPS-Php-1693
Pp3c12_24760
A9TYG3
PHYPA_016713
24
LLPS-Php-a022
Pp3c12_24890
A0A2K1JS35
PHYPA_016725
25
LLPS-Php-a007
Pp3c13_20240
A0A2K1JML4
PHYPA_017617
26
LLPS-Php-a023
Pp3c14_1930
A0A2K1JG19
PHYPA_017885
27
LLPS-Php-a005
Pp3c14_11860
A0A2K1JHF1
PHYPA_018388
28
LLPS-Php-1468
Pp3c14_14540
A0A2K1JHT7
PHYPA_018521
29
LLPS-Php-a017
Pp3c15_11070
A9SNV6
PHYPA_019606
30
LLPS-Php-a001
Pp3c15_11110
A0A2K1JCS6
PHYPA_019609
31
LLPS-Php-0444
Pp3c15_12410
A0A2K1JCZ6
PHYPA_019667
32
LLPS-Php-a012
Pp3c16_13360
A0A2K1J8F9
PHYPA_020924
33
LLPS-Php-a015
Pp3c17_7790
A0A2K1J337
PHYPA_021786
34
LLPS-Php-a031
Pp3c18_20850
A0A2K1J1T7
PHYPA_023390
35
LLPS-Php-a011
Pp3c19_13030
A0A2K1IY95
PHYPA_024062
36
LLPS-Php-2242
Pp3c21_8800
A0A2K1IR80
PHYPA_025907
37
LLPS-Php-a014
Pp3c21_16170
A9T571
PHYPA_026257
38
LLPS-Php-a027
Pp3c21_16710
A0A2K1ISA5
PHYPA_026286
39
LLPS-Php-1708
Pp3c22_14530
A9SEW4
PHYPA_027151
40
LLPS-Php-a029
Pp3c23_1220
A9TDT7
PHYPA_027522
41
LLPS-Php-1284
Pp3c23_5580
A0A2K1II52
PHYPA_027649
42
LLPS-Php-a009
Pp3c24_19300
A9SPL8
PHYPA_029276
43
LLPS-Php-1983
Pp3c16_5670
A0A2K1IAD0
PHYPA_030798
44
LLPS-Php-a013
Pp3c27_2570
A0A2K1IAD8
PHYPA_030813
45
LLPS-Php-a021
Pp3c27_7010
A0A2K1IB10
PHYPA_031029
46
LLPS-Php-a010
Pp3c2_19700
A9TVK0
Sep4c