Page 48 - 《广西植物》2026年第2期
P. 48

2 4 2                                  广  西  植  物                                         46 卷



































             A. 花粉可溶性蛋白ꎻ B. 免疫印迹分析 α ̄淀粉酶和 β ̄淀粉酶ꎻ C. 花粉淀粉表面蛋白及内部结合蛋白ꎻ D. 花粉中的淀粉同工酶
             检测ꎮ 均在等蛋白量的基础上进行分析ꎬ红色箭头表示相应酶的位置ꎮ
             A. Pollen soluble proteinsꎻ B. Immunoblot analysis of α ̄amylase and β ̄amylaseꎻ C. Pollen starch surface proteins and internal binding
             proteinsꎻ D. Starch isoenzyme detection in pollen. All analyses are performed on equal protein amountsꎬ and red arrows indicate the location of
             the relevant enzymes.
                                           图 4  雪松和玉米花粉淀粉相关蛋白分析
                               Fig. 4  Analysis of protein associated with pollen starch in cedar and maize


            参考文献:                                                and pollen tube elongation in rice [ J]. Plant Physiologyꎬ
                                                                 191(1): 96-109.
            BEDINGER Pꎬ 1992. The remarkable biology of pollen  DE OLIVEIRA J M Sꎬ MARTINS M Sꎬ DORNELES M Pꎬ et
               [J]. The Plant Cellꎬ 4(8): 879-887.               al.ꎬ 2015. Starch distribution in anthersꎬ microspores and
            BEDINGER Pꎬ FOWLER Jꎬ 2009. The maize male gametophyte  pollen grains in Aechmea recurvata ( Klotzsch.) L. B. Sm.ꎬ
               [M] / / HAKE Sꎬ BENNETZEN J. Handbook of maize: its  Dyckia racinae L. B. Sm. and Tillandsia aeranthos (Loisel.)
               biology. New York: Springer: 57-77.               L. B. Sm. ( Bromeliaceae) [ J]. Acta Botanica Brasilicaꎬ
            BENMOUSSA Mꎬ HAMAKER B Rꎬ HUANG C Pꎬ et al.ꎬ         29(1): 103-112.
               2010. Elucidation of maize endosperm starch granule channel  DIAS A R Gꎬ DA ROSA ZAVAREZE Eꎬ SPIER Fꎬ et al.ꎬ
               proteins and evidence for plastoskeletal structures in maize  2010. Effects of annealing on the physicochemical properties
               endosperm amyloplasts [ J ]. Journal of Cereal Scienceꎬ  and enzymatic susceptibility of rice starches with different
               52(1): 22-29.                                     amylose contents [J]. Food Chemistryꎬ 123(3): 711-719.
            BOONKOR Pꎬ SAGIS L M Cꎬ LUMDUBWONG Nꎬ 2022.        FERNANDO D Dꎬ 2005. Characterization of pollen tube
               Pasting and rheological properties of starch paste/ gels in a  development in Pinus strobus (eastern white pine) through
               sugar ̄acid system [J]. Foodsꎬ 11(24): 4060.       proteomic analysis of differentially expressed proteins
            BRADFORD M Mꎬ 1976. A rapid and sensitive method for the  [J]. Proteomicsꎬ 5(18): 4917-4926.
               quantitation of microgram quantities of protein utilizing the  FERNANDO D Dꎬ LAZZARO M Dꎬ OWENS J Nꎬ 2005.
               principle  of  protein ̄dye  binding  [ J ].  Analytical  Growth and development of conifer pollen tubes [J]. Sexual
               Biochemistryꎬ 72: 248-254.                        Plant Reproductionꎬ 18: 149-162.
            BREYGINA Mꎬ KLIMENKO Eꎬ SCHEKALEVA Oꎬ 2021.        FERNANDO D Dꎬ OWENS J Nꎬ YU X Sꎬ et al.ꎬ 2001. RNA
               Pollen germination and pollen tube growth in gymnosperms  and protein synthesis during in vitro pollen germination and
               [J]. Plants (Basel)ꎬ 10(7): 1301.                 tube elongation in Pinus monticola and other conifers
            CHEN L Kꎬ DONG X Bꎬ YANG H Fꎬ et al.ꎬ 2023. Cytosolic  [J]. Sexual Plant Reproductionꎬ 13: 259-264.
               disproportionating enzyme2 is essential for pollen germination  GOREN Aꎬ ASHLOCK Dꎬ TETLOW I Jꎬ 2018. Starch formation
   43   44   45   46   47   48   49   50   51   52   53