Abstract
BackgroundSacred lotus (Nelumbo nucifera) is a vital perennial aquatic ornamental plant. Its flower shape determines the horticultural and ornamental values. However, the mechanisms underlying lotus flower development are still elusive. MADS-box transcription factors are crucial in various features of plant development, especially in floral organogenesis and specification. It is still unknown how the MADS-box transcription factors regulate the floral organogenesis in lotus.ResultsTo obtain a comprehensive insight into the functions of MADS-box genes in sacred lotus flower development, we systematically characterized members of this gene family based on the available genome information. A total of 44 MADS-box genes were identified, of which 16 type I and 28 type II genes were categorized based on the phylogenetic analysis. Furthermore, the structure of MADS-box genes and their expressional patterns were also systematically analyzed. Additionally, subcellular localization analysis showed that they are mainly localized in the nucleus, of which a SEPALLATA3 (SEP3) homolog NnMADS14 was proven to be involved in the floral organogenesis.ConclusionThese results provide some fundamental information about the MADS-box gene family and their functions, which might be helpful in not only understanding the mechanisms of floral organogenesis but also breeding of high ornamental value cultivars in lotus.
Highlights
Sacred lotus (Nelumbo nucifera) is a vital perennial aquatic ornamental plant
Identification of MADS-box genes and their distribution in lotus genome To obtain a general knowledge on MADS-box gene family in lotus, we first searched for them in the lotus genome database to determine the number of genes in this family [50]
To accurately determine the members, after removing the candidates that aligned to the same sequence ID in NCBI (Table S1), a total of 44 N. nucifera MADS-box genes (NnMADS1–44) were confirmed by annotating them with Arabidopsis MADSbox gene names [22], of which some contained different transcript variants (Table S1)
Summary
Sacred lotus (Nelumbo nucifera) is a vital perennial aquatic ornamental plant. Its flower shape determines the horticultural and ornamental values. MADS-box transcription factors are crucial in various features of plant development, especially in floral organogenesis and specification. Petaloid is one of the key features that are selected in the breeding of ornamental plants, based on which numerous lotus cultivars showing petaloid differentiation, such as stamen petaloid and carpel petaloid have been obtained. This petal shape transition feature makes lotus an ideal plant for studying floral development, especially floral organogenesis. A subset of functional genes in this model is comprised of class A (APET ALA1/FRUITFULL, AP1/FUL), class B (APETALA3/PISTILLATA, AP3/PI), class C/D (AGAMOUS/SEEDSTICK/SHATTERPROOF1/2, AG/STK/SHP1/2), and class E (SEP1/2/3/4) [9, 13, 16]
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