Seed germination plays a pivotal role in plant growth and undergoes many intricate biochemical changes including lipid metabolism.Nevertheless,little is known about lipid changes and distributions in different structu...Seed germination plays a pivotal role in plant growth and undergoes many intricate biochemical changes including lipid metabolism.Nevertheless,little is known about lipid changes and distributions in different structures of soybean seeds during germination.Here,we applied mass spectrometry imaging(MSI)in conjunction with MS-based lipidomics to examine the lipid alterations in the embryo and cotyledon of soybean seeds during germination.To expand the coverage of lipid detection in soybean seeds,we used the novel techniques of matrix-assisted laser desorption/ionization(MALDI)and MALDI coupled with laser-postionization(MALDI-2).The results revealed that compared to MALDI,MALDI-2 enhanced the detected numbers and intensities of lipid species in various lipid classes,except for a few classes(e.g.,sphingomyelin and phosphatidylcholine).Lipidomic data showed that compared to the embryo,the cotyledon demonstrated slower but similar lipid changes during germination.These changes included the reduced levels of glycerolipids,phospholipids,and sterols,as well as the increased levels of lysophospholipids.Data from MALDI&MALDI-2 MSI supported and complemented these lipidomic findings.Our work highlights the significance of integrating lipid profiles and distributions to enhance our understanding of the metabolic pathways involved in seed germination.展开更多
[Objective] This study aimed to construct the full-length cDNA library for ger- minating seeds of Phyllostachys heterocycla [Method] Germinating seeds of P. hetero- cycla were used as experimental materials to constru...[Objective] This study aimed to construct the full-length cDNA library for ger- minating seeds of Phyllostachys heterocycla [Method] Germinating seeds of P. hetero- cycla were used as experimental materials to construct the full-length cDNA library by using Oligo-capping method. [Result] The constructed library has a total capacity of 6.5×10^6 recombinant clones, and a low proportion of clones without inserted frag- ments; the size of inserted fragments ranges between 0.3-5.0 kb, with strict classifi- cation and ideal consistency. Furthermore, the proportion of clones harboring long in- serted fragments (1.0-5.0 kb) is as high as 30%, achieving the standard for high- quality full-length cDNA library. [Conclusion] The full-length cDNA library of germinat- ing seeds of P. heterocycla was successfully constructed, which laid important foun- dation for the functional genomics research of bamboo plants.展开更多
The changes of chlorophyll_protein complexes and photosynthetic activities of chloroplast isolated from lotus ( Nelumbo nucifera Gaertn.) seeds germinating under illumination were studied. SDS PAGE analysis of c...The changes of chlorophyll_protein complexes and photosynthetic activities of chloroplast isolated from lotus ( Nelumbo nucifera Gaertn.) seeds germinating under illumination were studied. SDS PAGE analysis of chlorophyll_protein complexes showed that there was only the light harvesting chlorophyll a/b protein complex from PSⅡ (LHCⅡ) precursor in chloroplast from lotus seeds germinated for 2 to 6 days, while LHC Ⅱ 1, and the chlorophyll_protein complex of PSⅠ (CPⅠ) appeared on the 8th day of germination and PSⅡ reaction center complex appeared later. Studies on the polypeptides composition of the chloroplast revealed the following results: 1) Small amount of the 27 kD polypeptide was synthesized in invisible light; 2) The 30 kD polypeptide existed previously in the plumules of the dry seeds; 3) The amount of the 30 kD polypeptide was more than any other polypeptides before germination and decreased gradually throughout germination, while the 27 kD polypeptide changed in the opposite way; 4) In the process of germination, measurement of the electron transport rate and the fluorescence induction kinetics at room temperature showed that PSⅡ activities and efficiency of primary light energy transformation were only experimentally measurable after 7 days of germination and gradually increased afterwards. At the same time, the chl a/b ratio rose from the lower value to normal; 5) The changes of chloroplast membrane components and its functions are concomitant in concert with that of the ultrastructure of chloroplast membranes during germination, as shown in our earlier work . The results have proved again that a different developmental pathway of chloroplast is likely to exist in the lotus plumules, which might provide an important clue for N. nucifera in having an unique position in the phylogeny of the angiosperm.展开更多
To determine biochemical changes during the germination of rice grains (Oryza sativa L. subsp, indica var. Mottaikaruppan) and to improve germination rate using gibberellic acid and surfactants [sodium dodecyl sulfa...To determine biochemical changes during the germination of rice grains (Oryza sativa L. subsp, indica var. Mottaikaruppan) and to improve germination rate using gibberellic acid and surfactants [sodium dodecyl sulfate (SDS) (1.0 g/L) and Triton-X-100 (1.0 mL/L)], whole rice grains soaked in distilled water for 12 h at 30℃were germinated in the dark at 30℃ for five days. The highest germination rate (77.1%) was obtained on the 5th day. An increase in the content of reducing sugars from 7.3 to 58.1 mg/g DM (dry matter) was observed from the 1st day of germination. Free amino acids and soluble protein contents increased to 3.69 and 5.29 mg/g DM, respectively on the 5^th day of germination. Total protein content decreased from 100.5 to 91.0 g/kg DM during germination. Increases in amylolytic (1.1 to 190.0 U/g DM) and proteolytic (0 to 0.12 U/g DM) activities were observed during germination. Effects of different concentrations of gibberellic acid on the germination of rice grains were evaluated and 0.1 g/L was found to promote germination. When effects of gibberellic acid (0.1 g/L) and surfactants were evaluated individually and together, higher germination rate was observed in the control experiment (grains germinated in distilled water), whereas giberellic acid and surfactants decreased the germination rate. Therefore, the flour obtained from the grains germinated for four days using distilled water to obtain high content of soluble materials and enzyme activities can be used in preparation of bakery items.展开更多
Dioscorea nippnica Mak is an important traditional Chinese medicinal material with significant economic value. Seeds of Dioscorea nippnica Mak were collected from three forest areas. Germination experiment was carried...Dioscorea nippnica Mak is an important traditional Chinese medicinal material with significant economic value. Seeds of Dioscorea nippnica Mak were collected from three forest areas. Germination experiment was carried out with three mediums. Experimental results showed that the species had lower percentage of germination on all mediums. The limiting factors for germination were analyzed.展开更多
Olive (Olea europaea L.) tree is one of the most extensive and important agricultural crop in Mediterranean countries due to its beneficial health and nutritional properties and its high economic value. Currently, oli...Olive (Olea europaea L.) tree is one of the most extensive and important agricultural crop in Mediterranean countries due to its beneficial health and nutritional properties and its high economic value. Currently, olive tree constitutes the sixth most important cultivated plant in the world, spreading from the Mediterranean region of origin to new production areas such as Australia, South and North America and South Africa. However, the mobilization processes of storage materials i.e. reserve proteins during seed germination, which are largely involved in essential physiological process including plant growth and development, remain poorly understood. Morphometric and immunohistochemistry analyses of protein bodies contained in olive seed storage tissues, cotyledon and endosperm, were performed by using different microscopy techniques, including light (bright-field and fluorescence) microscopy and transmission electron microscopy. Furthermore, we used legumin-like proteins (11S-type globulins) as a molecular marker to study the mobilization of reserve proteins from PBs of cotyledons at germinating seedling stages by using immunofluorescence assays. Results demonstrated that cotyledon and endosperm are characterized by distinct PBs populations containing legumin-like proteins, distinctly discriminated by the number of PBs per cell and tissue, size, immunofluorescence and histochemical staining. These features reflect differential PBs biogenesis during development and maturation processes in olive seed tissues endosperm and cotyledon, in relation to proteins (polypeptides) final composition, SSPs processing and/or packaging during seed maturation. Three different mobilization patterns of legumin-like proteins were identified for the first time in cotyledon PBs during seedling germinating process. Mature proteins composition and/or processing, cell types and enzyme composition and/or differential activation have been discussed as key features determining how proteins mobilize from PBs for further degradation in the cotyledon.展开更多
Orchids critically rely on mycorrhizal fungi for seed germination and seedling development,but the extent to which the fungus benefits from the orchid is less clear.Recent work in arbuscular mycorrhizae has suggested ...Orchids critically rely on mycorrhizal fungi for seed germination and seedling development,but the extent to which the fungus benefits from the orchid is less clear.Recent work in arbuscular mycorrhizae has suggested that plants can provide fatty acids(FAs)to fungi,but empirical evidence in orchids remains limited.Here,we combine lipidomic and transcriptomic analyses to test the hypothesis that the germinationpromoting fungus Ceratobasidium sp.GS2 receives carbon in the form of FAs from Gymnadenia conopsea seeds during symbiotic germination.Confocal and transmission electron microscopy confirmed the potential of FA transfer from seeds to the fungus.Symbiosis resulted in significant changes in the lipid composition of the fungus,with increased concentrations of FAs in the external mycelium.RNA-seq showed upregulation of genes associated with FA synthesis in seeds and downregulation of de novo FA synthesis genes in fungi 12 d postsymbiosis,indicating that the increased amounts of FAs in the fungus may originate from the seeds.These results indicate that FAs absorbed by hyphae in the colonized inner cortex cells support hyphal growth,providing evidence for directional carbon flow from the orchid seeds to the fungus and supporting a“give now and get now”model of mutualism in orchid-fungus symbioses.展开更多
The seed predator satiation hypothesis states that high seed abundance can satiate seed predators or seed dispersers,thus promoting seed survival.However,for rapidly germinating seeds in tropical forests,high seed abu...The seed predator satiation hypothesis states that high seed abundance can satiate seed predators or seed dispersers,thus promoting seed survival.However,for rapidly germinating seeds in tropical forests,high seed abundance may limit dispersal as the seeds usually remain under parent trees for long periods,which may lead to high mortality due to rodent predation or fungal infestations.By tracking 2 species of rapidly germinating seeds(Pittosporopsis kerrii,family Icacinaceae;Camellia kissi,family Theaceae),which depend on dispersal by scatter-hoarding rodents,we investigated the effects of seed abundance at the community level on predation and seed dispersal in the tropical forest of Xishuangbanna Prefecture,Southwest China.We found that high seed abundance at the community level was associated with delayed and reduced seed removal,decreased dispersal distance and increased pre-dispersal seed survival for both plant species.High seed abundance was also associated with reduced seed caching of C.kissi,but it showed little effect on seed caching of P.kerrii.However,post-dispersal seed survival for the 2 plant species followed the reverse pattern.High seed abundance in the community was associated with higher post-dispersal survival of P.kerrii seeds,but with lower post-dispersal survival of C.kissi seeds.Our results suggest that different plant species derive benefit from fluctuations in seed production in different ways.展开更多
Self-Incompatibility (SI) Is a genetic mechanism of self/non-self pollen recognition to prevent self-fertilization In many flowering plants and, In most cases, this is controlled by a multl-allellc S-locus. S-RNase ...Self-Incompatibility (SI) Is a genetic mechanism of self/non-self pollen recognition to prevent self-fertilization In many flowering plants and, In most cases, this is controlled by a multl-allellc S-locus. S-RNase and Slocus F box (SLF) proteins have been shown to be the female and male determinants of gametophytlc selfIncompatibility (GSI), respectively, In the Solanaceae, Scrophulariaceae and Rosaceae. Nevertheless, It is thought that additional factors are required for the SI response. Herein, we constructed a mature anther cDNA library from a self-Incompatible Petunia hybrida Vllm. line of the S3S3 haplotype. Using AhS2-RNase from Antirrhinum hispanicum as a bait for yeast two-hybrid screening, we found that petunia germinating pollen (PGP) S/D3 was capable of Interacting physically with the bait. However, the Interaction lacked haplotype specificity. The PGPS/D3 gene Is a single copy gene that Is expressed In tissues such as the style, ovary, pollen, and leaf. The PGPS/D3::GFP (green fluorescence protein) construct was detected In both the membrane and cytoplasm. The Implications of these findings In the operation of S-RNase-based SI are discussed.展开更多
Gibberellins(GAs)and auxin play central regulatory roles in seed germination and root system development,respectively,so that the application of these phytohormones to crops would be worthwhile,with an increasing pote...Gibberellins(GAs)and auxin play central regulatory roles in seed germination and root system development,respectively,so that the application of these phytohormones to crops would be worthwhile,with an increasing potential demand in agriculture.However,there are few effective chemicals that simultaneously enhance both GA and auxin signaling.Here,we report on an artificial thiourea derivative chemical,Y21,that serves as both a GA-signaling agonist and an auxin analog,promoting seed germination and root development,as well as low-phosphorus tolerance.Phenotypic,biochemical,and genetic evidence demonstrated that Y21 enhances the interaction between GA and its receptor GID1C via the Val239 amino acid residue and consequently promotes degradation of the DELLA proteins REPRESSOR OF ga1-3(RGA)and RGA-LIKE 2.Furthermore,we found that Y21 interacts with the auxin receptor TIR1 via the Cys405 residue and thus promotes the turnover of the auxinresponsive Aux/IAA proteins.Consequently,Y21significantly increases low-phosphorus tolerance of treated plants by positively regulating lateral root development.To our knowledge,Y21 is the first GA-signaling agonist to be identified,and our results also demonstrate that this potent synthetic chemical,identified by chemical genetic screening,is effective at modulating plant development and stress tolerance.展开更多
Seaweed extract contains plant growth regulators and bio-stimulants that enhance plant growth and development.In Bangladesh,winter rice(Boro rice)in the nursery bed often shows poor seed emergence and weak seedling gr...Seaweed extract contains plant growth regulators and bio-stimulants that enhance plant growth and development.In Bangladesh,winter rice(Boro rice)in the nursery bed often shows poor seed emergence and weak seedling growth due to low temperature.This problem can be addressed by using seaweed extract as a seed priming agent and bio-stimulant.The objective of this study was to evaluate the effectiveness of seaweed extract(Crop Plus)on seed emergence,seedling growth,and vigor of winter rice in the nursery.Two experiments were conducted at Bangladesh Agricultural University using BRRI dhan89.The laboratory experiment consisted of 17 treatments combining three concentrations of Crop Plus(5000,10,000 and 15,000 ppm)and four priming durations(6,12,18,and 24 h),along with hydro-priming and a no priming as control.Seed priming with 15,000 ppm for 24 h produced the highest germination percentage and superior seedling growth traits.The nursery bed experiment comprised 11 treatments combining two doses(1 mL m^(−2)and 2 mL m^(−2))of Crop Plus and five different foliar application schedules,along with a control.All treatments outperformed the control,with the best results from Crop Plus@2 mL m^(−2)applied at 20 and 30 days after sowing(DAS).Overall,the treatment involving seed priming with 15,000 ppm seaweed extract for 24 h,followed by nursery application at 2 mL m^(−2)at 20 and 30 DAS,resulted in higher germination and improved early growth of winter rice.However,further validation across multiple locations,seasons,and rice cultivars is recommended.展开更多
Seed vigor is critical for uniform germination and emergence,directly influencing subsequent seedling development.This is especially important under both normal and stress conditions that may arise post-sowing.Chillin...Seed vigor is critical for uniform germination and emergence,directly influencing subsequent seedling development.This is especially important under both normal and stress conditions that may arise post-sowing.Chilling stress during emergence and early growth poses significant challenges for tomato seedlings,potentially leading to uneven emergence,abnormal growth,and higher seedling mortality.This study evaluated the effectiveness of combining drum-priming with melatonin to alleviate chilling stress during these two critical stages.Tomato seeds were primed with melatonin at various concentrations and compared to untreated controls under chilling stress conditions.Higher concentrations of melatonin significantly accelerated emergence and improved early growth under stress.These stress-mitigating effects were evidenced by reductions in oxidative stress markers,such as malondialdehyde and hydrogen peroxide,along with increased total polyphenol and flavonoid contents.Furthermore,melatonin priming preserved photosynthetic efficiency,typically reduced by chilling stress,and enhanced the activities of antioxidant enzymes,including catalase and peroxidase.These biochemical changes reduced oxidative damage and promoted stress resilience.Melatonin also accelerated the expression of genes within the C-repeat binding factor pathway,which is crucial for cold acclimation.This suggests that melatonin priming enabled quicker adaptation to chilling stress following sowing and bolstered seedling resilience during subsequent growth stages.Overall,our results demonstrate that melatonin priming not only enhances germination but also significantly supports seedling growth under adverse conditions.The findings highlight melatonin as a promising tool in crop management strategies to improve resilience against sudden chilling stress.展开更多
Germinal matrix hemorrhage in preterm neonates often leads to white matter injury,contributing to long-term neurodevelopmental impairments.As resident brain immune cells,microglia play a complex role in injury respons...Germinal matrix hemorrhage in preterm neonates often leads to white matter injury,contributing to long-term neurodevelopmental impairments.As resident brain immune cells,microglia play a complex role in injury response,including inflammation and repair.Although colony-stimulating factor 1 receptor inhibitors such as PLX5622 enable the selective depletion of microglia,their therapeutic potential in neonatal germinal matrix hemorrhage remains underexplored.Here,we used a collagenase-induced germinal matrix hemorrhage model in postnatal day 5 mice,and intraperitoneally administered PLX562272 hours post-germinal matrix hemorrhage to achieve targeted,temporary microglial depletion during the peak injury response.We then assessed the effects of this delayed intervention on oligodendrocyte lineage cell maturation,white matter integrity,and neurobehavioral outcomes.Additionally,RNA sequencing data from a germinal matrix hemorrhage rat model were analyzed using weighted gene co-expression network analysis to identify the critical phases for interventions.RNA sequencing data revealed a critical period in which key synaptic functions declined while immune responses intensified post-germinal matrix hemorrhage,thus pinpointing the critical response phases for potential interventions.Delayed PLX5622 treatment effectively depleted activated microglia,protecting against white matter injury and enhancing oligodendrocyte lineage cell maturation and myelination in subcortical white matter regions.Moreover,magnetic resonance imaging analysis revealed reduced brain lesion volumes in treated mice.Behaviorally,PLX5622-treated mice exhibited significant improvements in motor coordination and reduced hyperactivity compared with vehicle-treated germinal matrix hemorrhage model mice.These findings suggest that,when timed to avoid interference with initial oligodendrocyte lineage cell proliferation,targeted microglial depletion with PLX5622 significantly mitigates white matter damage and improves neurobehavioral outcomes in neonatal germinal matrix hemorrhage.The present study highlights the therapeutic potential of selectively modulating microglial reactivity to support neurodevelopment in preterm infants with brain injury.展开更多
The plant life cycle and the promise of crop yield start with successful seed germination,which requires an optimal balance between the phytohormones abscisic acid(ABA)and gibberellin(GA).Here,we report that the APETA...The plant life cycle and the promise of crop yield start with successful seed germination,which requires an optimal balance between the phytohormones abscisic acid(ABA)and gibberellin(GA).Here,we report that the APETALA 2-type transcription factor SALT AND ABA RESPONSE ERF 1(OsSAE1)antagonistically modulates ABA and GA signaling to control seed germination in rice(Oryza sativa L.).We show that knocking out OsSAE1 delays seed germination,concomitant with the accumulation of SLENDER RICE1(OsSLR1),a GA signaling repressor DELLA protein;importantly,GA application rescued the seed germination defect of ossae1 mutants.OsSAE1 directly activates transcription of the GA biosynthesis gene OsKS1 and represses that of the GA metabolism gene OsGA2ox3,resulting in higher GA levels.Moreover,OsSLR1physically interacts with ABA-INSENSITIVE 5(OsABI5),a key ABA signaling component,enhancing the transcriptional activation capacity of OsABI5 toward its target genes to regulate seed germination.The temporal expression pattern of OsSAE1 supports its role in orchestrating GA and ABA signaling to modulate seed germination and seed dormancy.Different OsSAE1 haplotypes differentially affected OsSAE1 transcript levels and seed germination rates,illustrating the potential of the elite OsSAE1 haplotype for genetic improvement of seed germination.Overall,our study reveals that OsSAE1 controls rice seed germination by regulating the balance between ABA and GA,providing a pivotal selection target for breeding rice cultivars suitable for direct seeding.展开更多
Gly m Bd 28K, Gly m Bd 30K and Gly m Bd 60K are the major soybean (Glycine max (L.) Merr.) allergens limiting the consumption of a good protein source for sensitive individuals. However, little is known about thei...Gly m Bd 28K, Gly m Bd 30K and Gly m Bd 60K are the major soybean (Glycine max (L.) Merr.) allergens limiting the consumption of a good protein source for sensitive individuals. However, little is known about their temporal-spatial expression during seed development and upon germination. The present data shows that soy allergens accumulated in both the embryonic axes and cotyledon, but expression patterns differed depending on the specific allergen. Allergens accumulated sooner and to a greater level in cotyledons than in embryonic axes. Gly m Bd 28 began at 14 d after flowering, 7 to 14 d earlier than Gly m Bd 30K and Gly m Bd 60K. Comparatively, their degradation was faster and more profound in embryonic axes than in cotyledons. Gly m Bd 60K began to decline at 36 h after imbibition and remained detectable up to 108 h in cotyledons. In contrast, the Glym Bd 60K protein was reduced at 24 h, and eventually disappeared at 96 h. In cotyledons Gly m Bd 28K first declined at 24 h, then increased from 36 h to 48 h, followed by its large reduction at 72 h after seed germination. These findings provide useful information on soy allergen biosynthesis and will help move forward towards developing a hypoallergenic soybean for safer food.展开更多
Water absorption is a prerequisite for seed germination. During imbibition, water influx causes the resumption of many physiological and metabolic processes in growing seed. In order to obtain more complete knowledge ...Water absorption is a prerequisite for seed germination. During imbibition, water influx causes the resumption of many physiological and metabolic processes in growing seed. In order to obtain more complete knowledge about the mechanism of seed germination, two-dimensional gel electrophoresis was applied to investigate the protein profile changes of rice seed during the first 48 h of imbibition. Thirty- nine differentially expressed proteins were identified, including 19 down-regulated and 20 up-regulated proteins. Storage proteins and some seed development- and desiccation-associated proteins were down regulated. The changed patterns of these proteins indicated extensive mobilization of seed reserves. By contrast, catabolism-associated proteins were up regulated upon imbibition. Semi-quantitative real time polymerase chain reaction analysis showed that most of the genes encoding the down- or up- regulated proteins were also down or up regulated at mRNA level. The expression of these genes was largely consistent at mRNA and protein levels. In providing additional information concerning gene regulation in early plant life, this study will facilitate understanding of the molecular mechanisms of seed germination.展开更多
Germinated quinoa flour has been proven to be rich in a variety of nutrients,in order to improve the nutritional value and reduce the glycemic index of wheat noodle,20%(w/w)of white quinoa(WQ),red quinoa(RQ),black qui...Germinated quinoa flour has been proven to be rich in a variety of nutrients,in order to improve the nutritional value and reduce the glycemic index of wheat noodle,20%(w/w)of white quinoa(WQ),red quinoa(RQ),black quinoa(BQ)powder with different germination time were added to wheat noodle.The gemination rate,sprout length,digestion ratio and microstructure of WQ,RQ,and BQ were determined.Also,the characteristics of cooking,texture,digestion and blood glucose of noodles were studied.It was found that the addition of quinoa flour(WQ-0,WQ-1,RQ-0,RQ-1,BQ-0,BQ-3)maintained the cooking and texture characteristics of wheat noodle.Meanwhile,WQ-1,RQ-1,BQ-3 reduced the optimal cooking time and starch digestibility compared with wheat noodle.At the same time,it showed that the addition of WQ-1,BQ-3 significantly reduced the area under the blood glucose curve(AUC)to 132.17,126.83(mmol/L)⋅h,respectively.The correlation analysis verified that the digestion ratio was significantly positively correlated with AUC(p<0.01).It will provide the theoretical basis for the development of new quinoa foods that lower blood sugar.展开更多
The germination experiment was started on March 3,2004,and seeds were collected from July to October in 2003.We analyzed the percentage of germination,days to first germination,germination period and days to 50%germin...The germination experiment was started on March 3,2004,and seeds were collected from July to October in 2003.We analyzed the percentage of germination,days to first germination,germination period and days to 50%germination.Among the 54 examined species,26 species exceeded 80%germination,11 species exceeded 60%–80%germination,8 exceeded 40%–0%,5 exceeded 20%–40%,and 4 showed less than 20%.A principalcomponent analysis revealed that the species were distributed along two statistically independent axes,the first primarily represented the germination rate and the second represented the time of germination process.Based on scores of germination characteristics,cluster analysis of the 54 gramineous species could be divided into 4 distinct groups:rapid,slow,intermediate germinating(germination percentage>50%),and low germinating(germination percentage<50%).The meaning of different groups to the vegetation regeneration was discussed.展开更多
Trichophyton rubrum is a dominating superficial dermatophyte,whose conidial germination is corre-lated to pathopoiesis and a highly important developmental process.To investigate the changes of physiology,biochemistry...Trichophyton rubrum is a dominating superficial dermatophyte,whose conidial germination is corre-lated to pathopoiesis and a highly important developmental process.To investigate the changes of physiology,biochemistry and cytology during the germination,we selected 3364 function identified ESTs from T.rubrum cDNA library to construct cDNA microarrays,and compared the gene expression levels of conidia and germinating phase.Data analysis indicated that 335 genes were up-regulated during the germination,which mainly encoded translated,modified proteins and structural proteins.The constituents of cell wall and cell membrane were synthetized abundantly,suggesting that they are the foundation of cell morphogenesis.The ingredients of the two-component signal transduction sys-tem were up-regulated,presuming that they were important for the conidial germination.Genes of various metabolic pathways were expressed prosperously,especially the genes that participated in glycolysis and oxidative phosphorylation were up-regulated on the whole,demonstrating that in the environment with sufficient oxygen and glucose,conidia obtained energy through aerobic respiration.This paper provides important clues which are helpful to understanding the changes in gene expres-sion,signal conduction and metabolism characteristics during T.rubrum conidial germination,and possess significant meaning to the study of other superficial dermatophytes.展开更多
In the previous paper, we reported that the guar seeds were quite sensitive to chilling and a temperature around 10℃ being maintained for more than 8hr would do serious harm to their viability. This paper deals with ...In the previous paper, we reported that the guar seeds were quite sensitive to chilling and a temperature around 10℃ being maintained for more than 8hr would do serious harm to their viability. This paper deals with the sensitivity of other legume seeds to chilling in the early stage of germination.展开更多
基金supported by National Natural Science Foundation of China(No.22036001)。
文摘Seed germination plays a pivotal role in plant growth and undergoes many intricate biochemical changes including lipid metabolism.Nevertheless,little is known about lipid changes and distributions in different structures of soybean seeds during germination.Here,we applied mass spectrometry imaging(MSI)in conjunction with MS-based lipidomics to examine the lipid alterations in the embryo and cotyledon of soybean seeds during germination.To expand the coverage of lipid detection in soybean seeds,we used the novel techniques of matrix-assisted laser desorption/ionization(MALDI)and MALDI coupled with laser-postionization(MALDI-2).The results revealed that compared to MALDI,MALDI-2 enhanced the detected numbers and intensities of lipid species in various lipid classes,except for a few classes(e.g.,sphingomyelin and phosphatidylcholine).Lipidomic data showed that compared to the embryo,the cotyledon demonstrated slower but similar lipid changes during germination.These changes included the reduced levels of glycerolipids,phospholipids,and sterols,as well as the increased levels of lysophospholipids.Data from MALDI&MALDI-2 MSI supported and complemented these lipidomic findings.Our work highlights the significance of integrating lipid profiles and distributions to enhance our understanding of the metabolic pathways involved in seed germination.
基金Supported by Specialized Fund for the Basic Research Operating Expenses Program of International Centre for Bamboo and Rattan(163201300812618-7)Special Fund for Research and Development of Forestry Nonprofit Industry(200704001)~~
文摘[Objective] This study aimed to construct the full-length cDNA library for ger- minating seeds of Phyllostachys heterocycla [Method] Germinating seeds of P. hetero- cycla were used as experimental materials to construct the full-length cDNA library by using Oligo-capping method. [Result] The constructed library has a total capacity of 6.5×10^6 recombinant clones, and a low proportion of clones without inserted frag- ments; the size of inserted fragments ranges between 0.3-5.0 kb, with strict classifi- cation and ideal consistency. Furthermore, the proportion of clones harboring long in- serted fragments (1.0-5.0 kb) is as high as 30%, achieving the standard for high- quality full-length cDNA library. [Conclusion] The full-length cDNA library of germinat- ing seeds of P. heterocycla was successfully constructed, which laid important foun- dation for the functional genomics research of bamboo plants.
文摘The changes of chlorophyll_protein complexes and photosynthetic activities of chloroplast isolated from lotus ( Nelumbo nucifera Gaertn.) seeds germinating under illumination were studied. SDS PAGE analysis of chlorophyll_protein complexes showed that there was only the light harvesting chlorophyll a/b protein complex from PSⅡ (LHCⅡ) precursor in chloroplast from lotus seeds germinated for 2 to 6 days, while LHC Ⅱ 1, and the chlorophyll_protein complex of PSⅠ (CPⅠ) appeared on the 8th day of germination and PSⅡ reaction center complex appeared later. Studies on the polypeptides composition of the chloroplast revealed the following results: 1) Small amount of the 27 kD polypeptide was synthesized in invisible light; 2) The 30 kD polypeptide existed previously in the plumules of the dry seeds; 3) The amount of the 30 kD polypeptide was more than any other polypeptides before germination and decreased gradually throughout germination, while the 27 kD polypeptide changed in the opposite way; 4) In the process of germination, measurement of the electron transport rate and the fluorescence induction kinetics at room temperature showed that PSⅡ activities and efficiency of primary light energy transformation were only experimentally measurable after 7 days of germination and gradually increased afterwards. At the same time, the chl a/b ratio rose from the lower value to normal; 5) The changes of chloroplast membrane components and its functions are concomitant in concert with that of the ultrastructure of chloroplast membranes during germination, as shown in our earlier work . The results have proved again that a different developmental pathway of chloroplast is likely to exist in the lotus plumules, which might provide an important clue for N. nucifera in having an unique position in the phylogeny of the angiosperm.
文摘To determine biochemical changes during the germination of rice grains (Oryza sativa L. subsp, indica var. Mottaikaruppan) and to improve germination rate using gibberellic acid and surfactants [sodium dodecyl sulfate (SDS) (1.0 g/L) and Triton-X-100 (1.0 mL/L)], whole rice grains soaked in distilled water for 12 h at 30℃were germinated in the dark at 30℃ for five days. The highest germination rate (77.1%) was obtained on the 5th day. An increase in the content of reducing sugars from 7.3 to 58.1 mg/g DM (dry matter) was observed from the 1st day of germination. Free amino acids and soluble protein contents increased to 3.69 and 5.29 mg/g DM, respectively on the 5^th day of germination. Total protein content decreased from 100.5 to 91.0 g/kg DM during germination. Increases in amylolytic (1.1 to 190.0 U/g DM) and proteolytic (0 to 0.12 U/g DM) activities were observed during germination. Effects of different concentrations of gibberellic acid on the germination of rice grains were evaluated and 0.1 g/L was found to promote germination. When effects of gibberellic acid (0.1 g/L) and surfactants were evaluated individually and together, higher germination rate was observed in the control experiment (grains germinated in distilled water), whereas giberellic acid and surfactants decreased the germination rate. Therefore, the flour obtained from the grains germinated for four days using distilled water to obtain high content of soluble materials and enzyme activities can be used in preparation of bakery items.
文摘Dioscorea nippnica Mak is an important traditional Chinese medicinal material with significant economic value. Seeds of Dioscorea nippnica Mak were collected from three forest areas. Germination experiment was carried out with three mediums. Experimental results showed that the species had lower percentage of germination on all mediums. The limiting factors for germination were analyzed.
文摘Olive (Olea europaea L.) tree is one of the most extensive and important agricultural crop in Mediterranean countries due to its beneficial health and nutritional properties and its high economic value. Currently, olive tree constitutes the sixth most important cultivated plant in the world, spreading from the Mediterranean region of origin to new production areas such as Australia, South and North America and South Africa. However, the mobilization processes of storage materials i.e. reserve proteins during seed germination, which are largely involved in essential physiological process including plant growth and development, remain poorly understood. Morphometric and immunohistochemistry analyses of protein bodies contained in olive seed storage tissues, cotyledon and endosperm, were performed by using different microscopy techniques, including light (bright-field and fluorescence) microscopy and transmission electron microscopy. Furthermore, we used legumin-like proteins (11S-type globulins) as a molecular marker to study the mobilization of reserve proteins from PBs of cotyledons at germinating seedling stages by using immunofluorescence assays. Results demonstrated that cotyledon and endosperm are characterized by distinct PBs populations containing legumin-like proteins, distinctly discriminated by the number of PBs per cell and tissue, size, immunofluorescence and histochemical staining. These features reflect differential PBs biogenesis during development and maturation processes in olive seed tissues endosperm and cotyledon, in relation to proteins (polypeptides) final composition, SSPs processing and/or packaging during seed maturation. Three different mobilization patterns of legumin-like proteins were identified for the first time in cotyledon PBs during seedling germinating process. Mature proteins composition and/or processing, cell types and enzyme composition and/or differential activation have been discussed as key features determining how proteins mobilize from PBs for further degradation in the cotyledon.
基金supported by the National Natural Science Foundation of China(32170013)the CAMS Initiative for Innovative Medicine(2021-I2M-1-031)+1 种基金the Science and Technology Project of Xizang Autonomous Region(XZ202402ZD0002)Science and Technology Program of Inner Mongolia Autonomous Region(2023YFDZ0076)。
文摘Orchids critically rely on mycorrhizal fungi for seed germination and seedling development,but the extent to which the fungus benefits from the orchid is less clear.Recent work in arbuscular mycorrhizae has suggested that plants can provide fatty acids(FAs)to fungi,but empirical evidence in orchids remains limited.Here,we combine lipidomic and transcriptomic analyses to test the hypothesis that the germinationpromoting fungus Ceratobasidium sp.GS2 receives carbon in the form of FAs from Gymnadenia conopsea seeds during symbiotic germination.Confocal and transmission electron microscopy confirmed the potential of FA transfer from seeds to the fungus.Symbiosis resulted in significant changes in the lipid composition of the fungus,with increased concentrations of FAs in the external mycelium.RNA-seq showed upregulation of genes associated with FA synthesis in seeds and downregulation of de novo FA synthesis genes in fungi 12 d postsymbiosis,indicating that the increased amounts of FAs in the fungus may originate from the seeds.These results indicate that FAs absorbed by hyphae in the colonized inner cortex cells support hyphal growth,providing evidence for directional carbon flow from the orchid seeds to the fungus and supporting a“give now and get now”model of mutualism in orchid-fungus symbioses.
基金funded by the National Natural Science Foundation of China(31301891)。
文摘The seed predator satiation hypothesis states that high seed abundance can satiate seed predators or seed dispersers,thus promoting seed survival.However,for rapidly germinating seeds in tropical forests,high seed abundance may limit dispersal as the seeds usually remain under parent trees for long periods,which may lead to high mortality due to rodent predation or fungal infestations.By tracking 2 species of rapidly germinating seeds(Pittosporopsis kerrii,family Icacinaceae;Camellia kissi,family Theaceae),which depend on dispersal by scatter-hoarding rodents,we investigated the effects of seed abundance at the community level on predation and seed dispersal in the tropical forest of Xishuangbanna Prefecture,Southwest China.We found that high seed abundance at the community level was associated with delayed and reduced seed removal,decreased dispersal distance and increased pre-dispersal seed survival for both plant species.High seed abundance was also associated with reduced seed caching of C.kissi,but it showed little effect on seed caching of P.kerrii.However,post-dispersal seed survival for the 2 plant species followed the reverse pattern.High seed abundance in the community was associated with higher post-dispersal survival of P.kerrii seeds,but with lower post-dispersal survival of C.kissi seeds.Our results suggest that different plant species derive benefit from fluctuations in seed production in different ways.
基金Supported by the Chinese Academy of Sciences and the National Natural Science Foundation of China (30221002).Acknowledgements The authors are grateful to Qi Xie (Institute of Genetics and Developmental Biology, the Chinese Academy of Sciences) for help with the construction of the cDNA library and the yeast two-hybrid techniques and Tim Robbins for providing P. hybrida. The authors also thank Jiayang Li (Institute of Genetics and Developmental Biology, the Chinese Academy of Sciences) for the pB1221-35S:GFP vector.
文摘Self-Incompatibility (SI) Is a genetic mechanism of self/non-self pollen recognition to prevent self-fertilization In many flowering plants and, In most cases, this is controlled by a multl-allellc S-locus. S-RNase and Slocus F box (SLF) proteins have been shown to be the female and male determinants of gametophytlc selfIncompatibility (GSI), respectively, In the Solanaceae, Scrophulariaceae and Rosaceae. Nevertheless, It is thought that additional factors are required for the SI response. Herein, we constructed a mature anther cDNA library from a self-Incompatible Petunia hybrida Vllm. line of the S3S3 haplotype. Using AhS2-RNase from Antirrhinum hispanicum as a bait for yeast two-hybrid screening, we found that petunia germinating pollen (PGP) S/D3 was capable of Interacting physically with the bait. However, the Interaction lacked haplotype specificity. The PGPS/D3 gene Is a single copy gene that Is expressed In tissues such as the style, ovary, pollen, and leaf. The PGPS/D3::GFP (green fluorescence protein) construct was detected In both the membrane and cytoplasm. The Implications of these findings In the operation of S-RNase-based SI are discussed.
基金supported by grants from the National Natural Science Foundation of China(32470364,31872850,and 31872804)the Natural Science Basic Research Program of Shaanxi(2025JC-JCQN-056 and 2024JC-YBMS-151)+2 种基金the Guangdong Basic and Applied Basic Research Foundation(2025A1515012749)the China Postdoctoral Science Foundation(2025M774348)the Shaanxi Fundamental Science Research Project for Chemistry&Biology(22JHZ007and 22JHQ054)。
文摘Gibberellins(GAs)and auxin play central regulatory roles in seed germination and root system development,respectively,so that the application of these phytohormones to crops would be worthwhile,with an increasing potential demand in agriculture.However,there are few effective chemicals that simultaneously enhance both GA and auxin signaling.Here,we report on an artificial thiourea derivative chemical,Y21,that serves as both a GA-signaling agonist and an auxin analog,promoting seed germination and root development,as well as low-phosphorus tolerance.Phenotypic,biochemical,and genetic evidence demonstrated that Y21 enhances the interaction between GA and its receptor GID1C via the Val239 amino acid residue and consequently promotes degradation of the DELLA proteins REPRESSOR OF ga1-3(RGA)and RGA-LIKE 2.Furthermore,we found that Y21 interacts with the auxin receptor TIR1 via the Cys405 residue and thus promotes the turnover of the auxinresponsive Aux/IAA proteins.Consequently,Y21significantly increases low-phosphorus tolerance of treated plants by positively regulating lateral root development.To our knowledge,Y21 is the first GA-signaling agonist to be identified,and our results also demonstrate that this potent synthetic chemical,identified by chemical genetic screening,is effective at modulating plant development and stress tolerance.
基金funded by Bangladesh Agricultural University Research System(BAURES)through the Project No.2024/48/BAU.
文摘Seaweed extract contains plant growth regulators and bio-stimulants that enhance plant growth and development.In Bangladesh,winter rice(Boro rice)in the nursery bed often shows poor seed emergence and weak seedling growth due to low temperature.This problem can be addressed by using seaweed extract as a seed priming agent and bio-stimulant.The objective of this study was to evaluate the effectiveness of seaweed extract(Crop Plus)on seed emergence,seedling growth,and vigor of winter rice in the nursery.Two experiments were conducted at Bangladesh Agricultural University using BRRI dhan89.The laboratory experiment consisted of 17 treatments combining three concentrations of Crop Plus(5000,10,000 and 15,000 ppm)and four priming durations(6,12,18,and 24 h),along with hydro-priming and a no priming as control.Seed priming with 15,000 ppm for 24 h produced the highest germination percentage and superior seedling growth traits.The nursery bed experiment comprised 11 treatments combining two doses(1 mL m^(−2)and 2 mL m^(−2))of Crop Plus and five different foliar application schedules,along with a control.All treatments outperformed the control,with the best results from Crop Plus@2 mL m^(−2)applied at 20 and 30 days after sowing(DAS).Overall,the treatment involving seed priming with 15,000 ppm seaweed extract for 24 h,followed by nursery application at 2 mL m^(−2)at 20 and 30 DAS,resulted in higher germination and improved early growth of winter rice.However,further validation across multiple locations,seasons,and rice cultivars is recommended.
文摘Seed vigor is critical for uniform germination and emergence,directly influencing subsequent seedling development.This is especially important under both normal and stress conditions that may arise post-sowing.Chilling stress during emergence and early growth poses significant challenges for tomato seedlings,potentially leading to uneven emergence,abnormal growth,and higher seedling mortality.This study evaluated the effectiveness of combining drum-priming with melatonin to alleviate chilling stress during these two critical stages.Tomato seeds were primed with melatonin at various concentrations and compared to untreated controls under chilling stress conditions.Higher concentrations of melatonin significantly accelerated emergence and improved early growth under stress.These stress-mitigating effects were evidenced by reductions in oxidative stress markers,such as malondialdehyde and hydrogen peroxide,along with increased total polyphenol and flavonoid contents.Furthermore,melatonin priming preserved photosynthetic efficiency,typically reduced by chilling stress,and enhanced the activities of antioxidant enzymes,including catalase and peroxidase.These biochemical changes reduced oxidative damage and promoted stress resilience.Melatonin also accelerated the expression of genes within the C-repeat binding factor pathway,which is crucial for cold acclimation.This suggests that melatonin priming enabled quicker adaptation to chilling stress following sowing and bolstered seedling resilience during subsequent growth stages.Overall,our results demonstrate that melatonin priming not only enhances germination but also significantly supports seedling growth under adverse conditions.The findings highlight melatonin as a promising tool in crop management strategies to improve resilience against sudden chilling stress.
基金supported by the National Key Research and Development Program of China,No.2022YFC2704801(to CZhu)the National Natural Science Foundation of China,Nos.U21A20347(to CZhu),82203969(to YX),82371472(to XZ)+3 种基金Health Commission of Henan Province,Nos.SBGJ202303039(to XZ),SBGJ202301009(to CZhu),YQRC2024018(to XZ),YQRC2024019(to YX)Henan Science and Technology Department,Nos.242102311054(to XZ),241111521300(to CZhu),GZS2023003(to XW)Swedish Research Council,Nos.2022-01019(to CZhu),2021-01950(to XW)Swedish Governmental Grants to Scientists Working in Healthcare,Nos.ALFGBG-1005209(to CZhu),ALFBG-1005257(to XW),ALFGBG-965197(to CZhu).
文摘Germinal matrix hemorrhage in preterm neonates often leads to white matter injury,contributing to long-term neurodevelopmental impairments.As resident brain immune cells,microglia play a complex role in injury response,including inflammation and repair.Although colony-stimulating factor 1 receptor inhibitors such as PLX5622 enable the selective depletion of microglia,their therapeutic potential in neonatal germinal matrix hemorrhage remains underexplored.Here,we used a collagenase-induced germinal matrix hemorrhage model in postnatal day 5 mice,and intraperitoneally administered PLX562272 hours post-germinal matrix hemorrhage to achieve targeted,temporary microglial depletion during the peak injury response.We then assessed the effects of this delayed intervention on oligodendrocyte lineage cell maturation,white matter integrity,and neurobehavioral outcomes.Additionally,RNA sequencing data from a germinal matrix hemorrhage rat model were analyzed using weighted gene co-expression network analysis to identify the critical phases for interventions.RNA sequencing data revealed a critical period in which key synaptic functions declined while immune responses intensified post-germinal matrix hemorrhage,thus pinpointing the critical response phases for potential interventions.Delayed PLX5622 treatment effectively depleted activated microglia,protecting against white matter injury and enhancing oligodendrocyte lineage cell maturation and myelination in subcortical white matter regions.Moreover,magnetic resonance imaging analysis revealed reduced brain lesion volumes in treated mice.Behaviorally,PLX5622-treated mice exhibited significant improvements in motor coordination and reduced hyperactivity compared with vehicle-treated germinal matrix hemorrhage model mice.These findings suggest that,when timed to avoid interference with initial oligodendrocyte lineage cell proliferation,targeted microglial depletion with PLX5622 significantly mitigates white matter damage and improves neurobehavioral outcomes in neonatal germinal matrix hemorrhage.The present study highlights the therapeutic potential of selectively modulating microglial reactivity to support neurodevelopment in preterm infants with brain injury.
基金funded by the National Natural Science Foundation of China(32472037,32030079)the National Key Research and Development Program of China(2022YFD1201700)+2 种基金the Youth innovation of Chinese Academy of Agricultural Sciences(Y2024QC14)the Central Public-Interest Scientific Institution Basal Research Fund(1610392023004)Agricultural Science and Technology Innovation Program(CAAS-ZDRW202407)。
文摘The plant life cycle and the promise of crop yield start with successful seed germination,which requires an optimal balance between the phytohormones abscisic acid(ABA)and gibberellin(GA).Here,we report that the APETALA 2-type transcription factor SALT AND ABA RESPONSE ERF 1(OsSAE1)antagonistically modulates ABA and GA signaling to control seed germination in rice(Oryza sativa L.).We show that knocking out OsSAE1 delays seed germination,concomitant with the accumulation of SLENDER RICE1(OsSLR1),a GA signaling repressor DELLA protein;importantly,GA application rescued the seed germination defect of ossae1 mutants.OsSAE1 directly activates transcription of the GA biosynthesis gene OsKS1 and represses that of the GA metabolism gene OsGA2ox3,resulting in higher GA levels.Moreover,OsSLR1physically interacts with ABA-INSENSITIVE 5(OsABI5),a key ABA signaling component,enhancing the transcriptional activation capacity of OsABI5 toward its target genes to regulate seed germination.The temporal expression pattern of OsSAE1 supports its role in orchestrating GA and ABA signaling to modulate seed germination and seed dormancy.Different OsSAE1 haplotypes differentially affected OsSAE1 transcript levels and seed germination rates,illustrating the potential of the elite OsSAE1 haplotype for genetic improvement of seed germination.Overall,our study reveals that OsSAE1 controls rice seed germination by regulating the balance between ABA and GA,providing a pivotal selection target for breeding rice cultivars suitable for direct seeding.
基金supported by the State Key Research and Development Plan of China (973) (Project No.2009CB11840)National Key Technologies Research and Development in the Program in the 10th Five-Year Plan (Project No.2006AA100104m 2006AA10Z1B3)China National Science and Technology Specific Project (2008ZX08009-003)
文摘Gly m Bd 28K, Gly m Bd 30K and Gly m Bd 60K are the major soybean (Glycine max (L.) Merr.) allergens limiting the consumption of a good protein source for sensitive individuals. However, little is known about their temporal-spatial expression during seed development and upon germination. The present data shows that soy allergens accumulated in both the embryonic axes and cotyledon, but expression patterns differed depending on the specific allergen. Allergens accumulated sooner and to a greater level in cotyledons than in embryonic axes. Gly m Bd 28 began at 14 d after flowering, 7 to 14 d earlier than Gly m Bd 30K and Gly m Bd 60K. Comparatively, their degradation was faster and more profound in embryonic axes than in cotyledons. Gly m Bd 60K began to decline at 36 h after imbibition and remained detectable up to 108 h in cotyledons. In contrast, the Glym Bd 60K protein was reduced at 24 h, and eventually disappeared at 96 h. In cotyledons Gly m Bd 28K first declined at 24 h, then increased from 36 h to 48 h, followed by its large reduction at 72 h after seed germination. These findings provide useful information on soy allergen biosynthesis and will help move forward towards developing a hypoallergenic soybean for safer food.
基金supported by the 100 Talents Program of the Chinese Academy of Sciences
文摘Water absorption is a prerequisite for seed germination. During imbibition, water influx causes the resumption of many physiological and metabolic processes in growing seed. In order to obtain more complete knowledge about the mechanism of seed germination, two-dimensional gel electrophoresis was applied to investigate the protein profile changes of rice seed during the first 48 h of imbibition. Thirty- nine differentially expressed proteins were identified, including 19 down-regulated and 20 up-regulated proteins. Storage proteins and some seed development- and desiccation-associated proteins were down regulated. The changed patterns of these proteins indicated extensive mobilization of seed reserves. By contrast, catabolism-associated proteins were up regulated upon imbibition. Semi-quantitative real time polymerase chain reaction analysis showed that most of the genes encoding the down- or up- regulated proteins were also down or up regulated at mRNA level. The expression of these genes was largely consistent at mRNA and protein levels. In providing additional information concerning gene regulation in early plant life, this study will facilitate understanding of the molecular mechanisms of seed germination.
基金Agricultural Development Project by Science and Technology of Shanghai Agriculture and Rural Affairs Committee(2021-02-08-00-12-F00780)Capacity-building project of local universities of Shanghai Science and Technology Commission,China(20060502100).
文摘Germinated quinoa flour has been proven to be rich in a variety of nutrients,in order to improve the nutritional value and reduce the glycemic index of wheat noodle,20%(w/w)of white quinoa(WQ),red quinoa(RQ),black quinoa(BQ)powder with different germination time were added to wheat noodle.The gemination rate,sprout length,digestion ratio and microstructure of WQ,RQ,and BQ were determined.Also,the characteristics of cooking,texture,digestion and blood glucose of noodles were studied.It was found that the addition of quinoa flour(WQ-0,WQ-1,RQ-0,RQ-1,BQ-0,BQ-3)maintained the cooking and texture characteristics of wheat noodle.Meanwhile,WQ-1,RQ-1,BQ-3 reduced the optimal cooking time and starch digestibility compared with wheat noodle.At the same time,it showed that the addition of WQ-1,BQ-3 significantly reduced the area under the blood glucose curve(AUC)to 132.17,126.83(mmol/L)⋅h,respectively.The correlation analysis verified that the digestion ratio was significantly positively correlated with AUC(p<0.01).It will provide the theoretical basis for the development of new quinoa foods that lower blood sugar.
基金supported by the Chinese Key Project for Nature Science (No.90202009).
文摘The germination experiment was started on March 3,2004,and seeds were collected from July to October in 2003.We analyzed the percentage of germination,days to first germination,germination period and days to 50%germination.Among the 54 examined species,26 species exceeded 80%germination,11 species exceeded 60%–80%germination,8 exceeded 40%–0%,5 exceeded 20%–40%,and 4 showed less than 20%.A principalcomponent analysis revealed that the species were distributed along two statistically independent axes,the first primarily represented the germination rate and the second represented the time of germination process.Based on scores of germination characteristics,cluster analysis of the 54 gramineous species could be divided into 4 distinct groups:rapid,slow,intermediate germinating(germination percentage>50%),and low germinating(germination percentage<50%).The meaning of different groups to the vegetation regeneration was discussed.
基金the National High Technology Research and Development Program of China(Grant No.2001AA223021)National Key Technologies R&D Programme(Grant No.2002BA711A14)
文摘Trichophyton rubrum is a dominating superficial dermatophyte,whose conidial germination is corre-lated to pathopoiesis and a highly important developmental process.To investigate the changes of physiology,biochemistry and cytology during the germination,we selected 3364 function identified ESTs from T.rubrum cDNA library to construct cDNA microarrays,and compared the gene expression levels of conidia and germinating phase.Data analysis indicated that 335 genes were up-regulated during the germination,which mainly encoded translated,modified proteins and structural proteins.The constituents of cell wall and cell membrane were synthetized abundantly,suggesting that they are the foundation of cell morphogenesis.The ingredients of the two-component signal transduction sys-tem were up-regulated,presuming that they were important for the conidial germination.Genes of various metabolic pathways were expressed prosperously,especially the genes that participated in glycolysis and oxidative phosphorylation were up-regulated on the whole,demonstrating that in the environment with sufficient oxygen and glucose,conidia obtained energy through aerobic respiration.This paper provides important clues which are helpful to understanding the changes in gene expres-sion,signal conduction and metabolism characteristics during T.rubrum conidial germination,and possess significant meaning to the study of other superficial dermatophytes.
文摘In the previous paper, we reported that the guar seeds were quite sensitive to chilling and a temperature around 10℃ being maintained for more than 8hr would do serious harm to their viability. This paper deals with the sensitivity of other legume seeds to chilling in the early stage of germination.
