2Nesi N,Lucas MO,Auger B,et al.The promoter of the Arabidopsis thaliana BAN gene is active in proanthocyanidin-accumulating cells of the Brassica napus seed coat[J].Plant Cell Rep,2009,28:601-617.
3Wan LL,Xia Q,Qiu X,et al.Early stages of seed development in Brassica napus:a seed coat-specific cysteine proteinase associated with programmed cell death of the inner integument[J].Plant J,2002,30:1-10.
4Kuang A,Popova A,Xiao Y,et al.Pollination and embryo development in Brassica rapa L.in microgravity[J].Intl J Plant Sci,2000,161:203-211.
5Kuang A,Popova A,McClure G,et al.Dynamics of storage reserve deposition during Brassica rapa L.pollen and seed development in microgravity[J].Intl J Plant Sci,2005,166:85-96.
8Marles MAS,Gruber MY.Histochemical characterisation of unextractable seed coat pigments and quantification of extractable lignin in the Brassicaceae[J].J Sci Food Agric,2004,84:251-262.
9Akhov L,Ashe P,Tan YF,et al.Proanthocyanidin biosynthesis in the seed coat of yellow-seeded,canola quality Brassica napus YN01-429 is constrained at the committed step catalyzed by dihydroflavonol 4-reductase[J].Botany,2009,87:616-625.
10Winkel-Shirley B.Flavonoid biosynthesis:A colorful model for genetics,biochemistry,cell biology,and biotechnology[J].Plant Physiol,2001,126:485-493.
