植物自交不亲和性分子机理的研究进展

journal6 ›› 2002, Vol. 23 ›› Issue (1): 32-37.

植物自交不亲和性分子机理的研究进展

（1.南京农业大学园艺学院，江苏南京 210095；2.江苏教育学院生物系，江苏南京 210013）

出版日期:2002-03-15 发布日期:2013-01-05
作者简介:徐国华（1970-），男，江苏盐城人，江苏教育学院生物系讲师，南京农业大学博士研究生，主要从事果树自交不亲和性分子机理研究.
基金资助:
国家自然科学基金资助项目（30170651）；高等学校博士点基金资助项目（20010307012）；江苏教育学院“十五”重点课题和南京师范大学资源生物重点实验室开放研究基金资助项目

The Molecular Progress on the Study of Plant Self-Incompatibility

(1.Horticultural College of Nanjing Agricultural University,Nanjing 210095,China;2.Biological Department of Jiangsu Institute of Education，Nanjing 210013,China)

Online:2002-03-15 Published:2013-01-05

摘要/Abstract

摘要：介绍了在植物界中广泛存在的自交不亲和的两种主要类型：孢子体型自交不亲和及配子体型自交不亲和.综述了这两种类型的遗传控制机理以及近年来在分子水平上的研究进展.

关键词： 自交不亲和性, 孢子体型, 配子体型, 分子机理

Abstract: There are two kinds of self-incompatibility (SI) in plant. One is sporophytic SI, the other is gametophytic SI. Here the latest progress in the area of genetic control and molecular mechanisms are elucidated.

Key words: self-incompatibility, sporophytic, gametophytic, molecular mechanism

徐国华, 李常青, 张绍铃. 植物自交不亲和性分子机理的研究进展[J]. journal6, 2002, 23(1): 32-37.

XU Guo-Hua, LI Chang-Qing, ZHANG Shao-Ling. The Molecular Progress on the Study of Plant Self-Incompatibility[J]. journal6, 2002, 23(1): 32-37.

参考文献

[1] NETTANCOURT D D E.Incompatibility in Angiosperms[M].Berlin: Springer-Verlag，1977.

[2] RAM DIXIT，JUNE B,NASRALLAH.Recognizing Self in the Self-incompatibility Response[J].Plant Physiology,2001,125: 105-108.

[3] WHEELER M J,FRANKLIN-TONG V E,FRANKLIN F C H.The Molecular and Genetic Basis of Pollen-pistil Interactions[J].New Phytologist,2001,151: 565-584

[4] ANDERSON M A,CORNISH E C,MAU S-L，et al.Cloning of cDNA for a Stylar Glycoprotein Associated With Expression of Self-incompatibility in Nicotiana Alata[J].Nature,1986,321: 38-44.

[5] MCCLURE B A,HARING V,EBERT P R，et al.Style Self-incompatibility Gene Products of Nicotiana Alata are Ribonucleases[J].Nature,1989,342: 955-957.

[6] SASSA H,HIRANO H,IKEHASHI H.Identification and Characterization of Stylar Glycoproteins Associated With Self-incompatibility genes of Japanese Pear,Pyrus Serotina Rehd[J].Molecular General Genetics,1993,241: 17-25.

[7] XU Y,CARPENTER R,DICKINSON H,et al.Origin of Allelic Diversity in Antirrhinum S-locus RNases[J].Plant Cell,1996,8: 805-814.

[8] STEPHENSON A G,GOOD S V,VOGLER D W.Interrelationships Among Inbreeding Depression,plasticity in the Self-incompatibility System,and the Breeding System of Campanula Ranunculoides L(Campanulaceae) [J].Annals of Botany,2000,85 (A): 211-219.

[9] GOLZ J F,SU V,CLARKE A E,NEWBIGIN E.A Molecular Description of Mutations Affecting the Pollen Component of the Nicotiana alata S-locus[J].Genetics,1999,152: 1 123-1 135.

[10] LUU D T,QIN X,MORSE D，et al.S-RNase Uptake by Compatible Pollen Tubes in Gametophytic Self-incompatibility[J].Nature,2000,407: 649-650.

[11] ZHANG S L,HIRATSUKA S.Variation in S-protein Levels in Styles of Japanese Pears and the Expression of Self-incompatibility[J].Journal of Japanese Society of Horticulture Science,1999,68: 911-918.

[12] 张绍铃,房经贵,杨记磙.果树自交不亲和性的遗传与生理机制及其研究[J].果树学报,2001,18(1): 49-52.

[13] 张绍铃,平土冢伸,徐国华，等.梨自交不亲和及其亲和突变品种花柱内S4(S4SM)基因的表达与作用的比较[J].植物学报,2001,43(11): 1 172-1 178.

[14] RUDD J J,FRANKLIN-TONG V E.Unravelling Response-specificity in Ca2+ Signalling Pathways in Plant Cells[J].New Phytologist,2001,151: 7-34.

[15] GEITMANN A,SNOWMAN B N,EMONS A M C,et al.Alterations to the Actin Cytoskeleton of Pollen Tubes are Induced by the Self-incompatibility Reaction in Papaver Rhoeas[J].Plant Cell,2000,12:1 239-1 252.

[16] SNOWMAN B N,GEITMANN A,CLARKE S R，et al.Signalling and the Cytoskeleton in Pollen Tubes of Papaver Rhoeas[J].Annals of Botany,2000,85 (A):

49-57.

[17] JORDAN N D,FRANKLIN F C H,FRANKLIN-TONG V E.Evidence for DNA Fragmentation Triggered in the Self-incompatibility Response in Pollen of Papaver Rhoe

as[J].Plant Journal,2000,23: 471-479.

[18] 汤青林,宋明,王小佳.芸苔属植物自交不亲和性及其机理研究进展[J].生物工程进展,2001,21(4): 22-25.

[19] 姜立杰,曹家树.芸薹属植物自交不亲和性的分子机制[J].植物学通报,2001,18(4): 411-417.

[20] DICKINSON H G.Dry Stigmas,Water and Self-incompatibility in Brassica[J].Sexual Plant Reproduction ,1995,8: 1-10.

[21] SULAMAN W,ARNALDO M,YU K F，et al.Loss of Callose in the Stigma Papillae Does Not Affect the Brassica Self-incompatibility Phenotype[J].Planta,1997,203: 327-331.

[22] NASRALLAH J B,KAO T H,GOLDBERG M L，et al.A cDNA Clone Encoding an S-specific Glycoprotein From Brassica Oleracea[J].Nature,1985,318: 263-267.

[23] STEIN J C,HOWLETT B,BOYES D C，et al.Molecular Cloning of a Putative Receptor Protein-kinase Gene Encoded at the Self-incompatibility Locus of Brassica Oleracea[J].Proceedings of the National Academy of Sciences,USA,1991,88: 8 816-8 820.

[24] WALKER J C.Receptor-like Protein Kinase Genes of Arabidopsis Thaliana[J].Plant Journal,1993,(3): 451-456.

[25] GORING D R,ROTHSTEIN S J.The S-locus Receptor Kinase Gene in a Self-incompatible Brassica Napus Line Encodes a Functional Serine/Threonine Kinase[J].Plant Cell,1992,(4): 1 273-1 281.

[26] TAKASAKI T,HATAKEYAMA K,SUZUKI G，et al.The S Receptor Kinase Determines Self-incompatibility in Brassica Stigmas[J].Nature,2000,403: 913-916.

[27] DIXIT R,NASRALLAH M E,NASRALLAH J B.Post-transcriptional Maturation of the S Receptor Kinase of Brassica Correlates with Co-expression of the S-locus Glycoprotein in the Stigmas of Two Brassica Strains and in Transgenic Tobacco Plants[J].Plant Physiology,2000,124: 297-311.

[28] GAUDE T,ROUGIER M,HEIZMANN P，et al.Expression Level of the SLG Gene isn't Correlated With the Self-incompatibility Phenotype in the Class II S Haplotypes of Brassica Oleracea[J].Plant Molecular Biology,1995,27: 1 003-1 014.

[29] BOYES D C,CHEN C H,TANTIKANJANA T，et al.Isolation of a Second S-locus-related cDNA From Brassica Oleracea -genetic-relationships Between the S-locus and Two Related Loci[J].Genetics,1991,127: 221-228.

[30] CASSELMAN A L,VREBALOV J,CONNER J A,et al.Determining the Physical Limits of the Brassica S Locus by Recombinational Analysis[J].Plant Cell,2000,12: 23-33.

[31] SCHOPFER C R,NASRALLAH M E,NASRALLAH J B.The Male Determinant of Self-incompatibility in Brassica[J].Science,1999,286: 1 697-1 700.

[32] SUZUKI G,KAI N,HIROSE T,FUKUI K,et al.Genomic Organization of the S-locus: Identification and Characterization of Genes in the SLG/SRK Region of S9 Haplotype of Brassica Campestris(Syn) Rapa[J].Genetics,1999,153: 391-400.

[33] TAKAYAMA S,SHIBA H,IWANO M，et al.The Pollen Determinant of Self-incompatibility in Brassica Campestris[J].Proceedings of the National Academy of Sciences,USA,2000,97: 1 920-1 925.

[34] CABRILLAC D,COCK J M,DUMAS C，et al.The S Locus Receptor Kinase is Inhibited by Thioredoxins and Activated by Pollen Coat Proteins[J].Nature,2001,410: 220-223.

[35] KOWYAMA Y,KAKEDA K,KONDO K，et al.A Putative Receptor Protein Kinase Gene in Ipomoea Trifida[J].Plant Cell Physiology,1996,37: 681-685.