+ Site Statistics
+ Search Articles
+ PDF Full Text Service
How our service works
Request PDF Full Text
+ Follow Us
Follow on Facebook
Follow on Twitter
Follow on LinkedIn
+ Subscribe to Site Feeds
Most Shared
PDF Full Text
+ Translate
+ Recently Requested

Differential expression of hydroxyproline-rich glycoprotein genes in potato tubers



Differential expression of hydroxyproline-rich glycoprotein genes in potato tubers



Prikladnaya Biokhimiya i Mikrobiologiya 33(2): 229-233



A family of hydroxyproline-rich glycoprotein (HRGP) genes was identified in the potato genome. RNA dot and blot hybridizations demonstrated that mechanical wounding and infection of potato tubers with Phytophtora infestans induced the accumulation of HRGP mRNA. Treatment of tubers with biogenic elicitors caused a long-term increase in the level of HRGP mRNA synthesis after wounding but not after infection with P. infestans.

Please choose payment method:






(PDF emailed within 1 workday: $29.90)

Accession: 008472233

Download citation: RISBibTeXText


Related references

Cloning and expression of tomato and potato hydroxyproline rich glycoproteins genes. Plant Physiology 99(1 Suppl.): 82, 1992

The purification and properties of the lectin from potato tubers, a hydroxyproline-containing glycoprotein. Biochemical Journal 135(2): 307-314, 1973

Long-term change in ability for stress-induced expression of potato gene for hydroxyproline-rich glycoprotein under action of biogenic elicitors. Doklady, Biochemistry 312(1-6): 134-137, 1990

Differential expression of genes in potato tubers after wounding. Proceedings of the National Academy of Sciences of the United States of America 85(4): 1136-1140, 1988

Two pathogen-responsive genes in parsley encode a tyrosine-rich hydroxyproline-rich glycoprotein (hrgp) and an anionic peroxidase. Molecular & General Genetics 247(4): 444-452, 1995

Isolation and expression analysis of elicitor-responsive genes in potato tubers and leaves by differential hybridization. Plant & Cell Physiology 42(Suppl.): s146, 2001

Tandem mass spectrometry and structural elucidation of glycopeptides from a hydroxyproline-rich plant cell wall glycoprotein indicate that contiguous hydroxyproline residues are the major sites of hydroxyproline O-arabinosylation. Journal of Biological Chemistry 270(6): 2541-2549, 1995

Extensin from suspension-cultured potato cells: a hydroxyproline-rich glycoprotein, devoid of agglutinin activity. Planta 202(2): 179-187, 1997

Hydroxyproline-rich glycoprotein accumulation in tobacco leaves protected against Erysiphe cichoracearum by potato virus Y infection. Plant Pathology 49(2): 179-186, 2000

The major glycoprotein allergen from the pollen of Parthenium hysterophorus cross-reacts with a hydroxyproline rich potato lectin. Journal of Allergy & Clinical Immunology 93(1 Part 2): 207, 1994

Differential regulation of a hydroxyproline-rich glycoprotein gene family in wounded and infected plants. Molecular and Cellular Biology 7(12): 4337-4344, 1987

Expression of a Soybean Hydroxyproline-Rich Glycoprotein Gene Is Correlated with Maturation of Roots. Plant Physiology 116(2): 671-679, 1998

Differential accumulation of hydroxyproline rich glycoprotein transcripts in sunflower plants infected with sclerotinia sclerotiorum or treated with oxalic acid. Plant Science 85(1): 51-59, 1992

Molecular details of plant cell wall hydroxyproline-rich glycoprotein expression during wounding and infection. UCLA symposia on molecular and cellular biology8(48): 375-392, 1987

Specific expression of a novel cell wall hydroxyproline-rich glycoprotein gene in lateral root initiation. Genes and Development 3(10): 1639-1646, 1989