The heat shock response of pollen and other tissues of maize

Norbert Hopf; Nora Plesofsky-Vig; Robert M Brambl

doi:10.1007/BF00026788

The heat shock response of pollen and other tissues of maize

Norbert Hopf, Nora Plesofsky-Vig, Robert M Brambl

Plant and Microbial Biology

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Abstract

While a heat shock treatment of 40 °C or 45 °C induced the vegetative tissues of maize to produce the typical heat shock proteins (HSPs), germinating maize pollen exposed to the same temperatures did not synthesize these characteristic HSPs. Comparison of RNA accumulation in shoot and tassel tissue showed that mRNAs for HSP70 and HSP18 increased several-fold, reaching high levels within 1 or 2 hours. At the higher temperature of 45 °C these vegetative tissues were blocked in removal of an intron from the HSP70 mRNA precursor, which accumulated to a high level in tassel tissue. In germinating pollen exposed to heat shock, mRNAs for these HSPs were induced but accumulated only to low levels. The stressed pollen maintained high levels of RNA for α-tubulin, a representative normal transcript. It is likely that the defective heat shock response of maize pollen is due to inefficient induction of heat shock gene transcription.

Original language	English (US)
Pages (from-to)	623-630
Number of pages	8
Journal	Plant molecular biology
Volume	19
Issue number	4
DOIs	https://doi.org/10.1007/BF00026788
State	Published - Jul 1992

Keywords

RNA
gene expression
heat shock
intron
maize
pollen

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abstract = "While a heat shock treatment of 40 °C or 45 °C induced the vegetative tissues of maize to produce the typical heat shock proteins (HSPs), germinating maize pollen exposed to the same temperatures did not synthesize these characteristic HSPs. Comparison of RNA accumulation in shoot and tassel tissue showed that mRNAs for HSP70 and HSP18 increased several-fold, reaching high levels within 1 or 2 hours. At the higher temperature of 45 °C these vegetative tissues were blocked in removal of an intron from the HSP70 mRNA precursor, which accumulated to a high level in tassel tissue. In germinating pollen exposed to heat shock, mRNAs for these HSPs were induced but accumulated only to low levels. The stressed pollen maintained high levels of RNA for α-tubulin, a representative normal transcript. It is likely that the defective heat shock response of maize pollen is due to inefficient induction of heat shock gene transcription.",

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AU - Brambl, Robert M

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The heat shock response of pollen and other tissues of maize

Abstract

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