Karyotype revised of Pisum sativum using chromosomal DNA amount

[1]  Niklas Gloeckner,et al.  Plant Chromosomes Analysis Manipulation And Engineering , 2016 .

[2]  A. Flavell,et al.  Pea (Pisum sativum L.) in the Genomic Era , 2012 .

[3]  C. R. Carvalho,et al.  Cytogenetic and flow cytometry data expand knowledge of genome evolution in three Coffea species , 2012, Plant Systematics and Evolution.

[4]  A. Voilley,et al.  Pea (Pisum sativum, L.) Protein Isolate Stabilized Emulsions: A Novel System for Microencapsulation of Lipophilic Ingredients by Spray Drying , 2012, Food and Bioprocess Technology.

[5]  M. Praça-Fontes,et al.  C-value reassessment of plant standards: an image cytometry approach , 2011, Plant Cell Reports.

[6]  Carlos Roberto Carvalho,et al.  Image cytometry: nuclear and chromosomal DNA quantification. , 2011, Methods in molecular biology.

[7]  A. Levan,et al.  NOMENCLATURE FOR CENTROMERIC POSITION ON CHROMOSOMES , 2009 .

[8]  T. Rosado,et al.  An integrated cytogenetic, flow and image cytometry procedure used to measure the DNA content of Zea mays A and B chromosomes. , 2009 .

[9]  N. Shostak,et al.  Comparative genome analysis in pea Pisum sativum L. Varieties and Lines with chromosomal and molecular markers , 2008, Russian Journal of Genetics.

[10]  C. R. Carvalho,et al.  Comparison of the Coffea canephora and C. arabica karyotype based on chromosomal DNA content , 2008, Plant Cell Reports.

[11]  C. R. Carvalho,et al.  Karyotype with 210 chromosomes in guaraná (Paullinia cupana ‘Sorbilis’) , 2007, Journal of Plant Research.

[12]  W. Clarindo,et al.  Mitotic evidence for the tetraploid nature of Glycine max provided by high quality karyograms , 2007, Plant Systematics and Evolution.

[13]  S. Gostimsky,et al.  Investigation of Chromosomes in Varieties and Translocation Lines of Pea Pisum sativum L. by FISH, Ag-NOR, and Differential DAPI Staining , 2005, Russian Journal of Genetics.

[14]  G. Murtaza,et al.  Karyotype analysis of Pisum sativum L. , 2005 .

[15]  Jaroslav Dolezel,et al.  Plant DNA flow cytometry and estimation of nuclear genome size. , 2005, Annals of botany.

[16]  A. Zelenin,et al.  Identification of the Pea (Pisum sativum L.) Genome Chromosomes Using C-Banding Analysis , 2002, Doklady Biological Sciences.

[17]  J. Macas,et al.  Chromosome Sorting and PCR-Based Physical Mapping in Pea (Pisum Sativum L.) , 2004, Chromosome Research.

[18]  J. Doležel,et al.  Nuclear DNA content and genome size of trout and human. , 2003, Cytometry. Part A : the journal of the International Society for Analytical Cytology.

[19]  R. Singh The Handling of Plant Chromosomes , 2002 .

[20]  T. Ellis,et al.  An integrated and comparative view of pea genetic and cytogenetic maps , 2002 .

[21]  J. Macas,et al.  Molecular and cytogenetic analysis of repetitive DNA in pea (pisum sativum L.). , 2001, Genome.

[22]  D. Inzé,et al.  Chemical inhibitors: a tool for plant cell cycle studies , 2000, FEBS letters.

[23]  L Nardi,et al.  Plant Genome Size Estimation by Flow Cytometry: Inter-laboratory Comparison , 1998 .

[24]  J. Fuchs,et al.  Assignment of linkage groups to pea chromosomes after karyotyping and gene mapping by fluorescent in situ hybridization , 1998, Chromosoma.

[25]  T. Ellis,et al.  The relationship between genetic and cytogenetic maps of pea. I. Standard and translocation karyotypes. , 1997, Genome.

[26]  J. Hofer,et al.  The relationship between genetic and cytogenetic maps of pea. II. Physical maps of linkage mapping populations. , 1997, Genome.

[27]  R. Hellens,et al.  Linkage maps in pea. , 1992, Genetics.