期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

盐生植物大米草PSⅡ颗粒的放氧活性及多肽组分 被引量:2

Study on the Photosynthetic O 2-Evolution Activity and Polypeptide Composition of PSⅡ Particles from Haiophyte Spartina Anglica
在线阅读 下载PDF
导出
摘要 以盐生的大米草(Spartinaanglica)为实验材料,BBY法制备PSⅡ颗粒,氧电极法测定其放氧活性,并通过SDS-PAGE及盐洗等手段对其多肽组分及特性进行了探索.结果显示①大米草尽管生长在盐生的环境中,但其PSⅡ放氧活性(99.92μmolO2/mgChl·h)和菠菜接近,但比分类地位较接近的小麦要高出1倍.②外加CaCl2后,大米草PSⅡ放氧活性由原来的99.92μmolO2/mgChl·h增加到114.20μmolO2/mgChl·h,表明Ca2+的数量和分布与放氧过程密切相关.③多肽组分分析表明,大米草PSⅡ由13条多肽组成,比中生类型的植物增加了分子量为67000和50000的2两条多肽.④盐洗后,放氧活性降低,回加CaCl2,放氧活性得到一定程度的恢复.多肽组分分析显示盐洗后,分子量为24000,18000及其它4条小分子多肽有不同程度丧失.这表明盐生大米草与放氧有联系的多肽和菠菜。 The photosystem Ⅱ(PSⅡ) complex is a complicated membrane protein and is located in the appressed region of the thylakoid membrane.Oxygen-evolving PSⅡ particles have been isolated from halophyte Spartina anglica in this paper,and the measurement of O 2-evolution activity demonstrated the PSⅡ particles had a great of O 2-evolving.SDS-PAGE profile indicated that the PSⅡ particles contained 13 polypeptides,hence the composition of PSⅡ polypeptides was different from mesophyte(spinach,wheat). A treatment of the PSⅡ particles with 2.0 M NaCl showed the 24000 and 18000 polypeptides could be released from the PSⅡ particles of Spartina anglica.Meanwhile,the 34000,27000,25000, 22000 were also released partly.By addition of 5mmol/L Ca 2+ the O 2-evolution activity could be partly restored and the Ca 2+ in PSⅡ particles is essential to O 2-evolving.
作者 陈国祥 刘冬 魏锦城
机构地区 南京师范大学生物系
出处 《南京师大学报(自然科学版)》 CAS CSCD 1996年第4期36-39,共4页 Journal of Nanjing Normal University(Natural Science Edition)
基金 江苏省科学基金
关键词 大米草 PSⅡ颗粒 多肽 放氧活性 光系统 植物 Halophyte Spartina anglica ,PSⅡ particles, polypeptides,O 2-evolution activity.
分类号 Q945.11 [生物学—植物学]
  • 相关文献

同被引文献28

  • 1Spartina Task Force.Spartina Management Program: Integrated Weed Management for Private Lands in Willapa Bay, Pacific County, Wash ington[M]. Unpublished report prepared for the Noxious Weed Board and County Commissioners,1994.
  • 2Ian D B, Pim F B, Roland B.Estimating the contribution of Spartina an glica biomass to salt- marsh sediments using compound specific stable carbon isotope measurements[J].Organic Geochemistry,1999,30(7): 477- 483.
  • 3Thompson JD,McNeilly T,Gray AJ. Population variation in Spartina anglica C E Hubbard. II. Reciprocal transplants among three succes sional populations[J].New Phytologist,1991,117:129- 139.
  • 4Mei- Yin Wua, Sally Hackerb, Debra Ayresc. Potential of Prokelisia spp. as Biological Control Agents of English Cordgrass, Spartina an glica[J].Biological Control, 1999,16(3):267- 273.
  • 5Baumel A,Ainouche M L,LevasseurJE.Molecular investigations in popu lations of Spartina anglica C E Hubbard (Poaceae) invading coastal Brit tany[J].Mol Ecol,2001,10(1): 689- 701.
  • 6Chung C- H.Twenty- five years of introduced Spartina anglica in China[A]. In: Gray A J and Benham P E M,eds.Spartina anglica- a Research Review[C], HMSO,London,1990.72- 76.
  • 7Thom R M.Accretion rates of low intertidal salt marshes in the Pacific Northwest[J].Wetland,1992,12:147- 156.
  • 8Baumel A,Ainouche M L,Kalendar J E. Retrotransposons and genomic stability in populations of the young allopolyploid species Spartina anglica C E Hubbard (Poaceae)[J].Mol Biol Evol,2002,19:1 218- 1 227.
  • 9Brian R M, Raymond W L.Aerenchyma development and oxygen trans port in the estuarine cordgrasses Spartina alterniflora and S.anglica[J]. Aquatic Botany,2002,74(2):109- 120.
  • 10Maria M M and Marinus L O. The effects of nitrogen supply and salinity on DMSP, glycine betaine and proline concentrations in leaves of Spartina anglica[J].Aquatic Botany, 2002,72(2):193- 200.

引证文献2

二级引证文献45

南京师大学报(自然科学版)
1996年 第4期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部