. .
.
Demonstrate plant genetics by the accumulation pattern of secondary metabolites in plants
.
.

 

 

ARTICLES

 

 

1)    Halbwirth, H. et al., (2003).Biochemical formation of anthocyanins in silk tissues of Zea mays. Plant Sciences, vol.164, pp-489-495.

 

2)    Sharma, M. et al., (2011).Identification of the Pr1 Gene product completes the anthocyanin pathway of Maize. Genetics, vol.188, pp-69-79.

 

3)    Reddy, A.R. and Reddy, G.M. (1975). Genetic Control of Quercetin formation in the aleurone tissue of Maize. Genetics, vol.81, pp-287-292.

 

4)    Hollick, J.B. et al., (2005).Rmr6 maintains Meiotic Inheritance of Paramutant States in Zea mays. Genetics, vol.171, pp-725-740.

 

5)    Procissi, A. et al., (2002). A maize r1 gene is regulated post-transcriptionally by different splicing of its leader. Plant Molecular Biology, Vol.49, pp-239-248.

 

6)    Selinger, D.A. and Chandler, V.L. (1999). A mutation in the pale aleurone color 1 gene identifies a novel regulator of the Maize anthocyanin pathway. The plant Cell, vol.11, pp-5-14.

 

7)    Pairoba, C.F. and Walbot, V. (2003). Post transcriptional regulation of expression of the bronze 2 gene of Zea Mays L. Plant Molecular Biology, vol.53, pp-75-86.

 

8)    Sachs, M.M. et al., (2005). Maize Mutants: Resources for Research. Maydica, vol.50, pp-305-309.

 

9)    Ares, J.P. et al., (1990). Molecular analysis of the C1-I allele from Zea mays: a dominant mutant of the regulatory C1 locus. The EMBO Journal, Vol.9, No.2, pp-315-321.

 

10)   Scanlon, M.J. et al., (1994). Genetic analysis of 63 mutations affecting Maize kernel Development Isolated from Mutator Stocks. Genetics, vol.136, pp-281-294.

 

11)   Chandler, V.L. (2000). Paramutation in Maize. Plant Molecular Biology, vol.43, pp-121-145.

 

12)   Neuffer, M.G. and Sheridan, W.F. (1980). Defective Kernel Mutants of Maize. I.Genetic and Lethality Studies. Genetics, Vol. 95, pp-929-944.

 

13)   Hanson, M.A. et al., (1996). Evolution of Anthocyanin Biosynthesis in Maize Kernels. The Role of regulatory and Enzymatic Loci. Genetics, vol.143, pp-1395-1407.

 

14)    Dooner, H.K. (1986). Genetic Fine structure of Bronze Locus in Maize. Genetics, Vol.113, pp-1021-1036.

 

15)    Cormick, S.M. (1978). Pigment synthesis in Maize Aleurone from Precursors Fed to Anthocyanin Mutants. Biochemical Genetics, Vol.16, Nos 7/8, pp-777-785.

 

16)   Pilu, R. et al., (2003a). Phenotypic, genetic and molecular characterization of a maize low phytic acid mutant (lpa241). Theor Appl Genet, vol.107, pp-980-987.

 

17)   Pilu, R. et al., (2005). The maize lpa241 mutation causes a remarkable variability of expression and some pleiotropic effects. Crop science, vol.45, pp-2096-2105.

 

18)   Pilu, R. et al., (2009). A paramutation phenomenon is involved in the genetics of maize low phytic acid-1-241(lpa-241) trait. Heredity, vol.102, pp-236-245.

 

19)   Badone, F.C. et al., (2010). The low phytic acid 1-241(lpa-241) maize mutation alters the accumulation of anthocyanin pigment in the kernel. Planta, vol.231, pp- 1189-1199.

 

20)   Raboy, V. et al., (2000). Origin and Seed phenotype of Maize low phytic acid1-1 and low phytic acid2-1. Plant physiology, vol. 124,pp-355-368.

 

21)    Kho, K.F.F. et al., (1975). Anthocyanin synthesis in a white flowering mutant of Petunia hybrida by a Complementation Technique. Planta(Berl), vol.127, pp-271-279.

 

22)   Napoli, C.A. et al., (1999). white anther: A Petunia Mutant That Abolishes Pollen Flavonol Accumulation Induces Male Sterility And Its Complementation by a Chalcone Synthase Transgene. Plant physiology, Vol.120, pp- 615-622.

 

23)   Houwelingen, A.V. et al., (1998). Analysis of flower pigmentation mutants generated by random transposon mutagenesis by Petunia hybrida. The Plant Journal, vol.13, No.1, pp-39-50.

 

24)   Adrienne, G.Y. et al., (2011). The thick aleurone1 Mutant Defines a Negative Regulation of Maize Aleurone Cell Fate That Functions Downstream of defective kernel1. Plant physiology, vol.156, pp-1826-1836.

 

25)   Gerats, A.G.M.et al.,(1982). Genetic Control of the conversion of dihydroflavonols into flavonols and anthocyanins in flowers of Petunia hybrida. Planta, vol.155,pp-364-368.

 

 

BOOKS

1)      Anthocyanin Synthesis in Maize Aleurone Tissue. Karen C. Cone. In: Endosperm; Vol.8, 2007, pp-121-139.

 

 

 

 

Cite this Simulator:

.....
..... .....
Copyright @ 2018 Under the NME ICT initiative of MHRD (Licensing Terms)
 Powered by AmritaVirtual Lab Collaborative Platform [ Ver 00.12. ]