Gene Expression Profiles of Cold-stored and Fresh Pollen to Investigate Pollen Germination and Growth

doi:10.1093/pcp/pch174

Plant and Cell Physiology 2004 45(10):1519-1528; doi:10.1093/pcp/pch174

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Gene Expression Profiles of Cold-stored and Fresh Pollen to Investigate Pollen Germination and Growth

Min-Long Wang¹^,2^,4, Chia-Mei Hsu¹^,4, Liang-Chi Chang¹, Co-Shine Wang², Ting-Ho Su¹^,2, Yih-Jong John Huang¹, Liwen Jiang³ and Guang-Yuh Jauh¹^,5

¹ Institute of Botany, Academia Sinica, Nankang, Taipei 11529, Taiwan, R.O.C.
² Graduate Institute of Biotechnology, National Chung Hsing University, Taichung 40227, Taiwan, R.O.C.
³ Department of Biology, Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China

In lily (Lilium longiflorum cv. Avita) pollen cold-stored (–20°C)for 2 months, typical in vitro germination/growth was delayedby about 1 h compared with fresh pollen. We hypothesizedthat some proteins and mRNAs stored in mature pollen were degradedduring storage periods and that re-synthesis of them was essentialto resume normal germination and growth. Cold-stored and freshpollen grains were used to investigate the regulatory mechanismof pollen germination and tube growth in terms of both totalprotein profile and gene expression. Total protein profilesof cold-stored pollen differed qualitatively and quantitativelyfrom fresh pollen. Actinomycin D significantly inhibited bothgermination and tube growth of cold-stored pollen and latertube growth of fresh pollen but had no effect on fresh pollengermination and early tube growth. Suppression subtractive hybridizationscreening revealed 99 cDNAs enriched in fresh mature pollen,and 22 were selected for further characterization. Most of these22 cDNAs gradually disappeared during cold storage, but fullrecovery was achieved by incubating the cold-stored pollen inculture medium for 2 h. Because of different sensitivitiesto cold storage and actinomycin D, the transcripts were dividedinto three groups according to their possible roles in pollengermination and tube growth. Several cDNAs encoding novel proteinsshowed pollen-specific expression patterns and may participatein drought tolerance (an Na⁺/H⁺ antiporter), endomembrane trafficking(DnaJ), division of the generative cell (Sgt1), pollen wallprecursor uptake from stylar exudate (an Na⁺/myoinositol symporter)and chemotropism of the pollen tube (peptide transporter) duringpollination.

⁴ These authors contributed equally to this work.

⁵ Corresponding author: E-mail, jauh{at}gate.sinica.edu.tw; Fax,+886-2-27827954.

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