1. 1 R x (Strain R x of m arine Pho to syn thetic Bacteria )

32 9 () V o l. 32 N o. 9 2004 9 Jour. of N o rthw est Sci2T ech U niv. of A gri. and Fo r. (N aṫ Sci. Ed. ) Sep. 2004 Rx Ξ 1, 2, 2, 1, 2 (1, 110016; 2, 110161) [ ] R x, DNA G+ C, R x, (0. 5 0. 7) Λm (1. 0 1. 2) Λm,,, ; R x a, ; R x 5 100 ggkg, ph 5. 8 8. 4; R x, ; ; ( t) (b) p2 (p 2ABA ) (n) R x ; R x DNA G+ C 64. 18%, (2002) 3 (1989), R x (R hod ovu lum eu ry halinum ) [ ] ; ; [] Q 939. 11 [] A [ ] 167129387 (2004) 0920047206, [1 ] [2 ], [3 ], [4, 5 ],,, [6 ], 1 ( R x),, 1 1. 1 R x (Strain R x of m arine Pho to syn thetic Bacteria ) 1. 2 71 # [7 ] 71 # 0. 1 0. 3 ggl, 0. 1 ggl 30 ggl, [ 7 ]YP [8 ] 30 ggl,,, (26 2), 500 1 000 lx, 7 14 d [7 ] ; Ξ [ ] 2003207229 [ ] (KZCX12SW 201) [ ] (1977- ),,,,, E2m ail: gzh j7719@ 163. com

48 () 32 ( ),, [ 9 ]; 1. 3 YP 71 #, JEM 2100CX g,, JEM 2100CXg, [ 10 ] 1. 4, 7 000 rgm in 10 m in 3, 600 ggl TU 21901 300 900 nm 1. 5 DNA G+ C ( Tm, m eltingtemperatu re ) [10 ] G+ C = (G+ C) g(a + T + G+ C) 100 1. 6 71 #,,, 722 660 nm (OD 660), 2, 3 1. 6. 1 40 ggl,,, 0. 2, 0. 4,, 2. 4 ggl, ph,,, [ 9 ], OD 660, OD 660g OD 660 100%, OD 660g% [11 ] 1. 6. 2 71 #,, 3 d, 0. 6 ggl,, [11 ] 1. 6. 371 #,, 0, 5. 0, 10. 0,, 150. 0 ggkg 1. 6. 4 ph ph 71 # ph 4, 5, 6, 7, 8, 9, 10, 11, 12, 3,, PH S225 ph, ph ph OD 660, ph 1. 6. 5 [ 10 ], 71 #, 0. 1 ggl, 2. 0 ggl, 71 #, (t) (b) (n) p 2 (p 2ABA ) 10 m ggl, 0. 6 kggcm 2 15 20 m in,, 1 5 m ggl 1. 6. 6 5, 15, 25, 35, 45, 2 2. 1 R x, (0. 5 0. 7) Λm (1. 0 1. 2) Λm, ( 1) ;, ( 2), ( 3) ; 30 ggl,, ( 4) ; ;, R x, YP 2 3 d,, 4 5 d,, 3 mm,, ; 71 # (20 ggl ), 7 10 d, 12 14 d, 2 mm,,

9 : R x 49 2. 2 5, 367 400, 800 805, 850 855 nm 3, a;, R x 450, 476, 480 nm 3, (sphaero idene), ;, 466, 488, 506, 515, 585 nm 5, ( sphaero idenone),, (sphaero ide2 none) [9, 12, 13 ] R x,, ;, ( ) 5 R x F ig. 5 A bso rp tion spectra of strain R x grow n under different conditions: m icroaerobic2ligh t, anaerobic2ligh t and aerobic2dark 2. 3 DNA G+ C,, G+ C, G+ C [10 ] 1 SSC (1. 5 mo lgl, 0. 15 mo lgl, ph 7. 0, 10 SSC ;

50 () 32 10 1 SSC ) DNA, K 12, Tm G+ C R x Tm (X) 82. 616, K 12 Tm (R ) 76. 374, G+ C = 51. 2+ 2. 08 [Tm (X ) - Tm (R ) ], R x G+ C 64. 18% 2. 4 2. 4. 1 R x ( 6) 0. 8 ggl,, [14 ] 2. 4. 2, [10 ] 7, R x 5. 0 100. 0 ggkg, 5. 0 75. 0 ggkg, 25. 0 ggkg, 30 ggkg, 8pH R x F ig. 8 Effects of different initial ph values on grow th of strain R x 2. 4. 3 ph ph 8, R x ph 5. 8 8. 4, OD 660 0. 2, ph ; ph 6. 46, OD 660,,, ph 6. 46 R x ph;, ph 6. 14 7. 48 2. 4. 4, [9, 10 ] 1, R x, L 2,, DL 2 (purp le non su lfide bacteria), B,, ;, [9, 10 ] (0. 01 ggl ) (0. 01 ggl ), R x t, b, n, p 2ABA 4, t, b, n, p 2ABA R x,, R x

9 : R x 1 R x T able 1 U tilization of carbon sources and electron dono rs by strain R x 51 N am e of C source Fo rm ate - A bundance A cetate + + P rop ionate + Butyrate + L acticate + + Benzoate - C itrate - T artratic - DL 2 DL 2M alic - Succinate + Glycero l + N am e of C source F ructo se Sucro se Gluco se + D 2 D 2So rbito l - M annito l - M anno se - T h io sulfate - A bundance Yeast extract + + Pep tone + + L 2 L 2Glutam ate + E thano l + : + + (OD 660 0. 6) ; + (OD 660 0. 2 0. 6) ;(OD 660 0. 1 0. 2) ; - (OD 660 0. 1) N o te: + + stands fo r grow ing w ell (OD 660 0. 6) ; + stands fo r grow ing (OD 660 0. 2-0. 60) ; stands fo r grow ing less apparent2 ly (OD 660 0. 1-0. 2) ; - stands fo r no t grow ing (OD 660 0. 1). 2. 4. 5, R x 5 35, 20 30, (24 2), 35, 30 35, 3, [10 ] ( 3 ) [14 ], 7 Specific nam e R. eury halnum R. strictum R. su lf id op h ilus R. ad riaticum 50 112, R x,, R x (purp le non su lfide bacteria) (R hod ovu lum and U eda, 1994) H iraish i ( 9 ) [10 ] 4, 2, R x (R hod ovu lum eu ry ha linum ), R x (R hod ovu lum H i2 raish i and U eda, 1994) (R hod ovu lum eu ry ha linum ) 2 R x T able 2 T he contrast betw een characteristics of strain R x and that of standard strains gλm Cell diam eter g Sulfate (g kg - 1 ) M o tility assim i2 Grow th lation salinity Comparative characters ph Grow th ph range 0. 7 1. 0 + - 5 100 6. 0 8. 5 0. 6 1. 0 + + 2. 5 30 7. 5 9. 0 0. 6 1. 0 + + 0 100 5. 0 9. 0 Grow th C itrate T artrate facto rs b, n, b, b, n, Gluta2 m ine G+ C g% - - + 62. 1 68. 6 (+ ) (+ ) - 67. 3 67. 7 - - + 66. 3 66. 6 0. 5 0. 8 - - 10 100 6. 0 8. 5 b, t - - - 64. 9 66. 7 Rx Strain Rx 5 100 + - 5 100 5. 8 8. 4 R x ph,,, b, n, - - + 64. 18, R x,, (7 14 d),

52 () 32 (5 35, (24 2) ), 5 100 ggkg,,, [ ] [ 1 ] L oach P A. Sup ramo lecular comp lexes in pho to synthetic bacteria (comm ent) [J ]. P roceedings of the N ational A cadem y of Sciences of the U nited States of Am erica, 2000, 97 (10) : 5016-5018. [ 2 ],. [J ]., 1991, 27 (3) : 161-166. [ 3 ],,. [J ]., 2000, 19 (5) : 34-36. [ 4 ] Yurkov V, Beatty J T. Iso lation of aerobic anoxygenic pho to synthetic bacteria from black smoker p lum e w aters of the Juan de Fuca R idge in the Pacific O cean[j ]. A pp lied and Environm entalm icrobio logy, 1998, 64 (1) : 337-341. [ 5 ],,,. [J ]., 2002, 26 (3) : 221-226. [ 6 ],,,. [J ]., 1998, 17 (1) : 6-12. [ 7 ] [ ]. [M ].. :, 1983. 87-92; 114-115, 658. [ 8 ],,,. P4 [J ]., 1991, 18 (3) : 135-137. [ 9 ],,,. [M ]. :, 1991. [ 10 ],. [M ]. :, 2002. 9-42; 349-418. [ 11 ],,. [J ]., 1995, 35 (2) : 91-96. [ 12 ],,,. [M ]. 2. :, 1991. [ 13 ] Rafael P ico rel, T ianhong L u, Randall E Ho lt, et al. Surface2enhanced resonance ram an scattering spectro scopy of bacterial pho to synthetic of rhodobacter sphaero ides 2. 4. 1[J ]. B iochem istry, 1990, 29: 707-712. [ 14 ] Staley J T, Ho lt J G. Bergeyπs M anual of System atic Bacterio logy (V o l 3) [M ]. L ondon: T he W illiam s and W ilk ins Company, 1989. 24-57. Iden tification and b io logical characteristics of m arine pho to syn thetic bacterium strain R x GU Zh i- j ing 1, 2, CHEN X i- sh i 2, HAN Sh i- j ie 1,L IU L ing-zh i 2 (1 Institute of A pp lied Ecology, Chinese A cademy of S ciences, S heny ang,l iaoning 110016, China; 2 M icrobiology T each ing and R esearch G roup, S heny ang A g ricu ltu ral U niversity, S heny ang, L iaoning 110161, Ch ina) Abstract: Strain R x w as screened from shallow 2beach sh rimp pond of J inzhou, D alian. Its pure cu ltu re has been iden tified th rough mo rpho logical, cu ltu ral, physio logical, b iochem ical characteristics, and G + C mo l% value tests. Strain R x is Gram negative, (0. 5-0. 7) Λm (1. 0-1. 2) Λm in size, single pop lar flag2 ellum. Its in tra2cytop lasm ic m em b ranes are of vesicu lar type, and mode of rep roduction is division. A pure cu ltu re of strain R x con tain s bacterioch lo rophy a, and its caro teno ids are of sphaero idines type. It can grow either aerob ically in the dark o r anaerob ically in the ligh ṫ T he range of salin ity and that of ph value fo r its grow th are 5-100 ggkg and 5. 8-8. 4 respectively. It can no t u se su lfide as electron dono r and its grow th is inh ib ited by h igher concen tration of su lfide. It can u se Glu tam ine as its o rgan ic carbon sou rces bu t no t C itrate and T artrate. It needs t, b, p 2ABA and n as its grow th facto rṡ Its DNA G+ C mo l% is 64. 18%. Based on the above b io logical characteristics, and acco rding to the M anual of D eterm inative Bacterio logy (first edition, 2002) and Bergerπs M anual of System atic Bacterio logy vo lum e 3 (1989), strain R x is iden ti2 fied as R hod ovu lum eu ry ha linum. Key words: m arine pho to syn thetic bacteria; iso lation and iden tification; b io logical characteristics