Heuer S, Hansen S, Bantin J, Brettschneider R, Kranz E, Lörz H, Dresselhaus T
West Africa Rice Development Association, B.P. 96, St. Louis, Senegal.
Plant Physiol. 2001 Sep;127(1):33-45. doi: 10.1104/pp.127.1.33.
MADS box genes represent a large gene family of transcription factors with essential functions during flower development and organ differentiation processes in plants. Addressing the question of whether MADS box genes are involved in the regulation of the fertilization process and early embryo development, we have isolated two novel MADS box cDNAs, ZmMADS1 and ZmMADS3, from cDNA libraries of maize (Zea mays) pollen and egg cells, respectively. The latter gene is allelic to ZAP1. Transcripts of both genes are detectable in egg cells and in in vivo zygotes of maize. ZmMADS1 is additionally expressed in synergids and in central and antipodal cells. During early somatic embryogenesis, ZmMADS1 expression is restricted to cells with the capacity to form somatic embryos, and to globular embryos at later stages. ZmMADS3 is detectable only by more sensitive reverse transcriptase-PCR analyses, but is likewise expressed in embryogenic cultures. Both genes are not expressed in nonembryogenic suspension cultures and in isolated immature and mature zygotic embryos. During flower development, ZmMADS1 and ZmMADS3 are co-expressed in all ear spikelet organ primordia at intermediate stages. Among vegetative tissues, ZmMADS3 is expressed in stem nodes and displays a gradient with highest expression in the uppermost node. Transgenic maize plants ectopically expressing ZmMADS3 are reduced in height due to a reduced number of nodes. Reduction of seed set and male sterility were observed in the plants. The latter was due to absence of anthers. Putative functions of the genes during reproductive and vegetative developmental processes are discussed.
MADS盒基因代表了一个转录因子的大基因家族,在植物的花发育和器官分化过程中具有重要功能。为了解决MADS盒基因是否参与受精过程和早期胚胎发育调控的问题,我们分别从玉米(Zea mays)花粉和卵细胞的cDNA文库中分离出了两个新的MADS盒cDNA,即ZmMADS1和ZmMADS3。后一个基因与ZAP1是等位基因。这两个基因的转录本在玉米卵细胞和体内合子中均可检测到。ZmMADS1还在助细胞、中央细胞和反足细胞中表达。在早期体细胞胚胎发生过程中,ZmMADS1的表达仅限于具有形成体细胞胚胎能力的细胞,以及后期的球形胚。只有通过更灵敏的逆转录酶PCR分析才能检测到ZmMADS3,但它同样在胚性培养物中表达。这两个基因在非胚性悬浮培养物以及分离的未成熟和成熟合子胚中均不表达。在花发育过程中,ZmMADS1和ZmMADS3在中间阶段的所有穗小穗器官原基中共同表达。在营养组织中,ZmMADS3在茎节中表达,并呈现出梯度,在最上部的节中表达最高。异位表达ZmMADS3的转基因玉米植株由于节数减少而高度降低。在这些植株中观察到结实率降低和雄性不育。后者是由于花药缺失。文中讨论了这些基因在生殖和营养发育过程中的假定功能。