early germination
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2021 ◽  
Author(s):  
◽  
Liam Robert Butland Mann

<p>Part A The metabolism of mustard (Sinapis alba) seeds wet at sub-germination temperatures has been studied using tritium incorporation as an index of metabolism. The theory and scope of the method are discussed. The enzymic reactions known in 1964 are surveyed one by one, suggesting which will, or will not, incorporate tritium from THO into specified metabolites, or cannot be confidently predicted either way. Improvements have been made in the chromatography procedure. At 0°, many of the normal germination chemical reactions proceed, but about one tenth as fast as at 24°. Amino-acids are being metabolised within 2 h of wetting the seeds, and malic and citric acids within 4 h. Within 24 h lipids and fructose are undergoing reactions. An unidentified compound “M”, not reported in normal germination, is being metabolised within 48 h. Another aberration from normal is the absence of detectable succinate metabolism. Labelling of the solid residue (insoluble in ethanol and in water) always occurs, shown to be largely non-metabolic. To explain the non-germination of seeds at temperatures near 0°, it is hypothesized that the Krebs cycle is qualitatively altered, perhaps by “wasting away” of glutamate to 4-aminobutyrate instead of its routing into the Krebs cycle as alpha-oxoglutarate.  Part B A method has been developed for studying the metabolism of dry seeds, spores and pollen by exposure to THO vapour. Dry Pinus radiata pollen labels many compounds. A few have been identified and are common metabolites. It may be that the metabolism of dry pollen is not qualitatively different from its germination reactions. Dry mustard seeds and spores of the fungus Pithomyces chartarum give, in contrast to pollen, patterns of incorporation very different from those in early germination.</p>


2021 ◽  
Author(s):  
◽  
Liam Robert Butland Mann

<p>Part A The metabolism of mustard (Sinapis alba) seeds wet at sub-germination temperatures has been studied using tritium incorporation as an index of metabolism. The theory and scope of the method are discussed. The enzymic reactions known in 1964 are surveyed one by one, suggesting which will, or will not, incorporate tritium from THO into specified metabolites, or cannot be confidently predicted either way. Improvements have been made in the chromatography procedure. At 0°, many of the normal germination chemical reactions proceed, but about one tenth as fast as at 24°. Amino-acids are being metabolised within 2 h of wetting the seeds, and malic and citric acids within 4 h. Within 24 h lipids and fructose are undergoing reactions. An unidentified compound “M”, not reported in normal germination, is being metabolised within 48 h. Another aberration from normal is the absence of detectable succinate metabolism. Labelling of the solid residue (insoluble in ethanol and in water) always occurs, shown to be largely non-metabolic. To explain the non-germination of seeds at temperatures near 0°, it is hypothesized that the Krebs cycle is qualitatively altered, perhaps by “wasting away” of glutamate to 4-aminobutyrate instead of its routing into the Krebs cycle as alpha-oxoglutarate.  Part B A method has been developed for studying the metabolism of dry seeds, spores and pollen by exposure to THO vapour. Dry Pinus radiata pollen labels many compounds. A few have been identified and are common metabolites. It may be that the metabolism of dry pollen is not qualitatively different from its germination reactions. Dry mustard seeds and spores of the fungus Pithomyces chartarum give, in contrast to pollen, patterns of incorporation very different from those in early germination.</p>


Author(s):  
U.R. Reshma ◽  
S. Simi

Background: Mango stones are in general recalcitrant. Moreover, they are available only during April- May months which are the drier parts of the year. So stone germination and plant vigour are very low. Proper seed orientation, age of stones after extraction from fruit and pre-sowing treatments need to be taken into consideration for inducing early germination, boosting growth, enhancing the seedling vigour and reducing the mortality. Methods: The experiment was laid out in factorial completely randomized design with forty two treatment combinations replicated thrice. The treatments were comprised of two sowing positions viz., flat and stalk end up, three age of stones after extraction from fruit, viz., fresh extracted, 10 days and 20 days after extraction and seven pre-sowing treatments viz., 100 ppm GA3, 200 ppm GA3, 1 ppm KNO3, 2 ppm KNO3, cow dung slurry, water, control and their combinations. Result: Stalk end up sowing of freshly extracted stones pre-treated with 200 ppm GA3 for 24 hours recorded better germination and vigour of mango seedlings.


2021 ◽  
Author(s):  
Anlong Jiang ◽  
Zhonglong Guo ◽  
Jiawei Pan ◽  
Yanzhi Yang ◽  
Yan Zhuang ◽  
...  

Abstract Light-dependent seed germination is a vital process for many seed plants. A decisive event in light-induced germination is degradation of the central repressor PHYTOCHROME INTERACTING FACTOR 1 (PIF1). The balance between gibberellic acid (GA) and abscisic acid (ABA) helps to control germination. However, the cellular mechanisms linking PIF1 turnover to hormonal balancing remain elusive. Here, employing far-red light-induced Arabidopsis thaliana seed germination as the experimental system, we identified PLANTACYANIN (PCY) as an inhibitor of germination. It is a blue copper protein associated with the vacuole that is both highly expressed in mature seeds and rapidly silenced during germination. Molecular analyses showed that PIF1 binds to the miR408 promoter and represses miR408 accumulation. This in turn posttranscriptionally modulates PCY abundance, forming the PIF1-miR408-PCY repression cascade for translating PIF1 turnover to PCY turnover during early germination. Genetic analysis, RNA-sequencing, and hormone quantification revealed that PCY is necessary and sufficient to maintain the PIF1-mediated seed transcriptome and the low-GA-high-ABA state. Furthermore, we found that PCY domain organization and regulation by miR408 are conserved features in seed plants. These results revealed a cellular mechanism whereby PIF1-relayed external light signals are converted through PCY turnover to internal hormonal profiles for controlling seed germination.


2021 ◽  
Vol 22 (4) ◽  
pp. 1562
Author(s):  
Jia Zhao ◽  
Wenjun Li ◽  
Shan Sun ◽  
Liling Peng ◽  
Zhibo Huang ◽  
...  

Seed vigor affects seed germination and seedling emergence, and therefore is an important agronomic trait in rice. Small auxin-up RNAs (SAURs) function in a range of developmental processes, but their role in seed vigor remains unclear. Here, we observed that disruption of OsSAUR33 resulted in reduced germination rates and low seed uniformity in early germination. Expression of OsSAUR33 was higher in mature grains and early germinating seeds. RNA-seq analysis revealed that OsSAUR33 modulated seed vigor by affecting the mobilization of stored reserves during germination. Disruption of OsSAUR33 increased the soluble sugar content in dry mature grains and seeds during early germination. OsSAUR33 interacted with the sucrose non-fermenting-1-related protein kinase OsSnRK1A, a regulator of the sugar signaling pathway, which influences the expression of sugar signaling-related genes during germination. Disruption of OsSAUR33 increased sugar-sensitive phenotypes in early germination, suggesting OsSAUR33 likely affects seed vigor through the sugar pathway. One elite haplotype of OsSAUR33 associated with higher seed vigor was identified mainly in indica accessions. This study provides insight into the effects of OsSAUR33 on seed vigor in rice.


2020 ◽  
Vol 26 (2) ◽  
Author(s):  
Nandini Kumari ◽  
Pushpanjali Khare

A pot experiment was conducted to observe the effect of indigenous strains of rhizobacteria isolated from litchi orchards of East Champaran, Bihar (India) on the growth and survivability of litchi seedlings. Three efficient native rhizobacterial isolates belonging to genera Pseudomonas, Azotobacter and Ochrobactrum were used in seven different combinations and their effect on germination rate, shoot height, root length, number of leaves were observed and recorded in litchi seedlings. Pot 7 containing mixed combination of all the three isolates in equal proportion showed maximum root length (11.7 cm) and shoot length (12.5 cm), early germination as compared to control Pot P8 devoid of any isolates. Pot 4 (Pseudomonas + Azotobacter) and pot 5 (Pseudomonas + Ochrobactrum) also gave satisfactory result in all the parameters recorded. The results clearly state that, mixture of all the three rhizobacterial isolates as “Biomix” produced stimulatory growth results on litchi seedlings as compared to sole application and control. This “Biomix” could be used for formulating effective biofertilizers for litchi orchards in future.


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