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1.
Xuan Zhou Chongyu Luo Kuixiu Li Dan Zhu Lihui Jiang Lixia Wu Youchun Li Xiahong He Yunlong Du 《Phyton》2022,91(1):13-20
Panax notoginseng is a traditional Chinese medicinal plant. Root rot of P. notoginseng is one of the most serious diseases affecting P. notoginseng growth and causes wilted leaves, fewer lateral roots and rotten roots. Root rot is a soil-borne disease, and mainly occurs from June to August in Yunnan Province when the temperatures are high and the air is humid. In this study, the endophytic fungal genus Fusarium isolate E-2018.1.22-#3.2 was obtained from a P. notoginseng embryo. Fusarium isolate E-2018.1.22-#3.2 was identified as Fusarium striatum based on morphological characteristics and molecular analysis. The fungus was found to have conidiophores and macroconidia, and its ITS, LSU and TEF-1α genes shared 100%, 99.2% and 99% identities with the homologous genes of Fusarium striatum, respectively. Isolate F. striatum E-2018.1.22-#3.2 can cause root rot symptoms, including black, soft roots, fewer lateral roots and leaf wilt, in 93% of the experimental P. notoginseng plants, and could be re-isolated, fulfilling Koch’s postulates. When the P. notoginseng plants were treated with the fungicide pyraclostrobin, isolate F. striatum E-2018.1.22-#3.2 was unable to cause root rot. We have therefore demonstrated that F. striatum E-2018.1.22-#3.2 is able to cause root rot disease in P. notoginseng. This is the first report of root rot disease caused by F. striatum on P. notoginseng in China. 相似文献
2.
Pinus elliottii is an exotic afforestation pine extensively distributed in
southern parts of China. In order to understand whether endophytic fungi can
affect seedling growth of P. elliottii, Piriformospora indica (Pi), Funnelifcrmis
mosseae (Fm), and Diversispora tortuosa (Dt) were inoculated respectively,
and the non-inoculated group was set as control. The growth indexes, the contents
of soluble sugar and soluble protein, and plant endogenous hormone levels in the
leaves of P. elliottii, were analyzed. The results showed that Fm, Dt and Pi colonized
the P. elliottii roots to form mycorrhizal structure and chlamydospores
arranged in beads respectively. Three fungal inoculants exhibited the stimulated
growth responses, whilst Dt illustrated the most positive effect on plant height, single
fresh weight, trunk diameter and root system structure, compared with the control.
On the other hand, the soluble sugar and soluble protein contents were
increased distinctively in mycorrhizal plants. The endogenous IAA, GA3, ZR contents
were increased, while the ABA contents were reduced in mycorrhizal plants
versus non-mycorrhizal plants. The fungi-induced endogenous hormone changes
triggered plant growth improvement of P. elliottii seedlings. This research unraveled
the positive effect of AM fungi and P. indica on growth of pine seedlings, while,
more application of endophytic fungi to fields needs to be explored. 相似文献
3.
Jingsen Liu Jinqi Ma Ai Lin Chao Zhang Bo Yang Liyuan Zhang Lin Huang Jiana Li 《Phyton》2020,89(2):253-273
Invertase (INV), a key enzyme in sucrose metabolism, irreversibly catalyzes the hydrolysis of sucrose to glucose and fructose, thus playing important
roles in plant growth, development, and biotic and abiotic stress responses. In this
study, we identified 27 members of the BnaINV family in Brassica napus. We
constructed a phylogenetic tree of the family and predicted the gene structures,
conserved motifs, cis-acting elements in promoters, physicochemical properties
of encoded proteins, and chromosomal distribution of the BnaINVs. We also analyzed the expression of the BnaINVs in different tissues and developmental stages
in the B. napus cultivar Zhongshuang 11 using qRT-PCR. In addition, we analyzed RNA-sequencing data to explore the expression patterns of the BnaINVs
in four cultivars with different harvest indices and in plants inoculated with the
pathogenic fungus Sclerotinia sclerotiorum. We used WGCNA (weighted coexpression network analysis) to uncover BnaINVregulatory networks. Finally,
we explored the expression patterns of several BnaINV genes in cultivars with
long (Zhongshuang 4) and short (Ningyou 12) siliques. Our results suggest that
BnaINVs play important roles in the growth and development of rapeseed siliques
and the defense response against pathogens. Our findings could facilitate the
breeding of high-yielding B. napus cultivars with strong disease resistance. 相似文献
4.
The lignocellulosic crop Miscanthus spp. has been identified as a good candidate for biomass production. The
responses of Miscanthus sinensis Anderss. to salinity were studied to satisfy the needs for high yields in marginal
areas and to avoid competition with food production. The results indicated that the relative advantages of the
tolerant accession over the sensitive one under saline conditions were associated with restricted Na+ accumulation
in shoots. Seedlings of two accessions (salt-tolerant ‘JM0119’ and salt-sensitive ‘JM0099’) were subjected to 0
(control), 100, 200, and 300 mM NaCl stress to better understand the salt-induced biochemical responses of genes
involved in Na+ accumulation in M. sinensis. The adaptation responses of genes encoding for Na+
/H+ antiporters,
NHX1 and SOS1 to NaCl stress were examined in JM0119 and JM0099.The cDNA sequences of genes examined
were highly conserved among the relatives of M. sinensis based on the sequencing on approximate 600 bp-long
cDNA fragments obtained from degenerate PCR. These salt-induced variations of gene expression investigated by
quantitative real-time PCR provided evidences for insights of the molecular mechanisms of salt tolerance in
M. sinensis. The expression of NHX1 was up-regulated by salt stress in JM0119 shoot and root tissues. However,
it was hardly affected in JM0099 shoot tissue except for a significant increase at the 100 mM salt treatment, and it
was salt-suppressed in the JM0099 root tissue. In the root tissue, the expression of SOS1 was induced by the high
salt treatment in JM0119 but repressed by all salt treatments in JM0099. Thus, the remarkably higher expression
of NHX1 and SOS1 were associated with the resistance to Na+ toxicity by regulation of the Na+ influx, efflux, and
sequestration under different salt conditions. 相似文献
5.
Alfalfa (Medicago sativa L.), when exposed to abiotic stress such as salinity, suffers significant losses in yield and
productivity. The present study evaluated the salinity tolerance of 12 alfalfa cultivars in vitro using five concentrations of sodium chloride (NaCl), ranging from 0 to 250 mmol L−1
. The results obtained in the current study
revealed that the Saudi cultivars, Kasimi and Hassawi, and the German cultivar (Berlin) had the highest salinity
tolerance in terms of germination percentage (GP), corrected germination rate index (CGRI), days to reach 50%
germination (GT50), and ability to form cotyledonary and true leaves. Under mmol L−1 NaCl, the Saudi cultivar
Kasimi cultivar showed GP, CGRI, and GT50 of 55.20%, 123.15, and 3.77 days, respectively. Similarly, the German
cultivar (Berlin) showed GP, CGRI, and GT50 of 50.06%, 86.61, and 5.17 days, respectively. These findings might
reveal a pivotal aspect in salt tolerance in alfalfa. Our results will help to select salt-tolerant alfalfa cultivars that
could thrive in arid and semi-arid areas with salinity problems. 相似文献
6.
Elizabeth Carrillo-Flores Jonanci Arreola-Rivera Denní Mariana Pazos-Solís Moisés Bocanegra-Mondragón Grisel Fierro-Romero Ma. Elena Mellado-Rojas Elda Beltrán-Peña 《Phyton》2022,91(11):2383-2401
The potential of Plant Growth Promoting Rhizobacteria (PGPR) has been demonstrated in the case of plant inoculation with bacteria of the genus Azospirillum which improves yield. A. brasilense produces a wide variety of molecules, including the natural auxin indole-3-acetic acid (IAA), as well as other phytoregulators. However, several studies have suggested that auxin induces changes in plant development during their interaction with the bacteria. The effects of A. brasilense Sp245 on the development of Arabidopsis thaliana root were investigated to help explain the molecular basis of the interaction. The results obtained showed a decrease in primary root length from the first day and remained so throughout the exposure, accompanied by a stimulation of initiation and maturation of lateral root primordia and an increase of lateral roots. An enhanced auxin response was evident in the vascular tissue and lateral root meristems of inoculated plants. However, after five days of bacterization, the response disappeared in the primary root meristems. The role of polar auxin transport (PAT) in auxins relocation involved the PGP1, AXR4-1, and BEN2 proteins, which apparently mediated A. brasilense-induced root branching of Arabidopsis seedlings. 相似文献
7.
TiO2 nanoparticles (nano-TiO2) are widely used in the world, and a
considerable amount of nano-TiO2 is released into the environment, with toxic
effects on organisms. In the various species of higher plants, growth, including
seed germination, root elongation, and biomass accumulation, is affected by
nano-TiO2. However, the underlying molecular mechanisms remain to be elucidated. In this study, we observed that nano-TiO2 promoted root elongation in a
dose-dependent manner. Furthermore, we found that nano-TiO2 elevated auxin
accumulation in the root tips of the auxin marker lines DII-VENUS and DR5::
GUS, and, correspondingly, quantitative real-time PCR analysis revealed that
nano-TiO2 increased the expression levels of auxin biosynthesis- and transportrelated genes. GFP fluorescence observation using transgenic PIN2-GFP
indicated that nano-TiO2 promoted root growth by inducing PIN2 accumulation.
Thus, we propose that nano-TiO2 promote root growth in Arabidopsis thaliana by
altering the expression levels of auxin biosynthesis- and transport-related genes. 相似文献
8.
Phytophthora nicotianae causes substantial economic losses in most countries where tobacco is produced. At present, the control of P. nicotianae mainly depends on chemical methods, with considerable environmental and
health issues. We investigated the effects of ethanol extracts from Scutellaria baicalensis Georgi (SBG) and Magnolia officinalis (MO). On mycelial growth, sporangium formation, and zoospore release of P. nicotianae. Both
extracts inhibited the growth of P. nicotianae, with mycelial growth inhibition rates of 88.92% and 93.92%, respectively, at 40 mg/mL, and EC50 values of 5.39 and 5.74 mg/mL, respectively. The underlying mechanisms were the
inhibition of sporangium formation, the reduction of zoospore number, and the destruction of the mycelium
structure. At an SBG extract concentration of 16.17 mg/mL, the inhibition rates for sporangia and zoospores were
98.66% and 99.39%, respectively. At an MO extract concentration of 2.87 mg/mL, the production of sporangia
and zoospores was completely inhibited. The hyphae treated with the two plant extracts showed different degrees
of deformation and damage. Hyphae treated with SBG extract showed adhesion and local swelling, whereas treatment with MO extract resulted in broken hyphae. Mixture of the extracts resulted in a good synergistic effect. 相似文献
9.
Brassica rapa var. rapa (turnip) is an important crop in Qinghai-Tibet
Plateau (QTP) with anti-hypoxic effect. Turnip is rich in glucosinolates,
isothiocyanates and phenolic compounds with diverse biological activities,
involving anti-oxidant, anti-tumor, anti-diabetic, anti-inflammatory, anti-microbial,
hypolipidemic, cardioprotective, hepatoprotective, nephroprotective and analgesic
properties. In this study, the ethyl acetate (EtOAc) and butanol parts of Brassica
rapa were first revealed with inhibitory effects on α-glucosidase, whereas the water
part was inactive. Subsequent bioassay-guided isolation on the EtOAc and butanol
parts yielded 12 compounds, involving three indole derivatives, indole-3-
acetonitrile (1) 4-methoxyindole-3-acetonitrile (2) and indole-3-aldehyde (3) two
flavonoids, liquiritin (4) and licochalcone A (5) two phenylpropanoids, sinapic acid
(6) and caffeic acid (7) two phenylethanol glycosides, 2-phenylethyl β-
glucopyranoside (8) and salidroside (9) and three other compounds, syringic acid
(10) adenosine (11) and (3β, 20E)-ergosta-5, 20 (22)-dien-3-ol (12) Licochalcone
A (5) and caffeic acid (7) showed α-glucosidase inhibitory activity with IC50 values
of 62.4 ± 8.0 μM and 162.6 ± 3.2 μM, comparable to the positive control, acarbose
(IC50 = 142 ± 0.02 μM). Docking study suggested that licochalcone A (5) could
well align in the active site of α-glucosidase (docking score = -52.88) by forming
hydrogen bonds (Gln1372, Asp1420, Gln1372, Arg1510), hydrophobic effects
(Tyr1251, Tyr1251, Trp1355, Phe1560, Ile1587, Trp1355, Phe1559, Phe1559) and
π-π stacking interaction (Trp1355). This study provides valuable information for
turnip as a new resource in searching anti-diabetic candidates. 相似文献
10.
Jing Qu Shuang Liu Peng Jiao Zhenzhong Jiang Jianbo Fei Shuyan Guan Yiyong Ma 《Phyton》2022,91(8):1709-1719
To develop cold-tolerant maize germplasms and identify the activation of INDUCER OF CRT/DRE-BINDING FACTOR EXPRESSION (ICE1) expression in response to cold stress, RT-PCR was used to amplify the complete open reading frame sequence of the ICE1 gene and construct the plant expression vector pCAMBIA3301-ICE1-Bar. Immature maize embryos and calli were transformed with the recombinant vector using Agrobacterium tumefaciens-mediated transformations. From the regenerated plantlets, three T1 lines were screened and identified by PCR. A Southern blot analysis showed that a single copy of the ICE1 gene was integrated into the maize (Zea mays L.) genomes of the three T1 generations. Under low temperature-stress conditions (4°C), the relative conductivity levels decreased by 27.51%–31.44%, the proline concentrations increased by 12.50%–17.50%, the malondialdehyde concentrations decreased by 16.78%–18.37%, and the peroxidase activities increased by 19.60%–22.89% in the T1 lines compared with those of the control. A real-time quantitative PCR analysis showed that the ICE1 gene was ectopically expressed in the roots, stems, and leaves of the T1 lines. ICE1 positively regulates the expression of the CBF genes in response to cold stress. Thus, this study showed the successful transformation of maize with the ICE1 gene, resulting in the generation of a new maize germplasm that had increased tolerance to cold stress. 相似文献
11.
12.
Minghui Niu Heng Zhang Xiangyang Li Zhibao Hu Hongjiao Zhang Zhiru Xu Chunpu Qu Guanjun Liu 《Phyton》2023,92(7):2001-2015
KANADI (KAN) is a plant-specific gene that controlled the polarity development of lateral organs. It mainly acted on the abaxial characteristics of plants to make the lateral organs asymmetrical. However, it had been less identified in woody plants. In this study, the members of the KAN gene family in Populus trichocarpa were identified and analyzed using the bioinformatics method. The results showed that a total of 8 KAN family members were screened out, and each member contained the unique GARP domain and conserved region of the family proteins. Phylogenetic analysis and their gene structures revealed that all KAN genes from P. trichocarpa, Arabidopsis thaliana, and Nicotiana benthamiana could be divided into four subgroups, while the eight genes in P. trichocarpa were classified into three subgroups, respectively. The analysis of tissue-specific expression indicated that PtKAN1 was highly expressed in young leaves, PtKAN6 was highly expressed in young leaves and mature leaves, PtKAN2, PtKAN5, and PtKAN7 were highly expressed in nodes and internodes, PtKAN8 was highly expressed in roots, and PtKAN3 and PtKAN4 showed low expression levels in all tissues. Among them, PtKAN2 and PtKAN6, and PtKAN4 and PtKAN5 might have functional redundancy. Under high nitrogen concentrations, PtKAN2 and PtKAN8 were highly expressed in mature stems and leaves, respectively, while PtKAN4, PtKAN5, and PtKAN7 were highly expressed in roots. This study laid a theoretical foundation for further study of the KAN gene-mediated nitrogen effect on root development. 相似文献
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15.
Wilber Montejo-Mayo Eduardo Días-Rivera Mauro Martínez-Pacheco Abril Munro-Rojas Enrique Ambriz-Parra Crisanto Velázquez-Becerra 《Phyton》2021,90(1):193-206
Wood is an organic material that is a source of carbon of organisms called Wood-decay fungi, and to preserve the wood, various toxic compounds to man and the environment have been used. To analyze the effect of N,N-Dimethylhexadecylamine (DMHDA) on wood attacked by the rotting fungus Trametes versicolor L. We used an in vitro system to expose the fungus T. versicolor to different concentrations of the DMHDA (50, 150 and 450 μM). We quantified the diameter of mycelial growth and laccase activity, also, under these experimental conditions we studied morphological details of the organisms using different scanning equipment including scanning electron microscopy. The growth of T. versicolor exposed to DMHDA for 60 days, showed a concentration-dependent dose behavior, also, the electron microscopy analysis revealed that the morphology and mycelial density was affected by the DMHDA, showing a formation of atypical morphological and thickener folds. Finally, the pieces of wood treated with DMHDA and exposed to the fungus had a lower mass loss, after a period of 60 days of exposure, the values obtained were 0.7, 1.0 and 0.5 g of mass lost for the control, LoC and LoDMHDA treatments respectively. Wood-rot fungi have represented economic losses worldwide, the strategies used have been supported by toxic compounds for the environment. The DMHDA both in the Petri dish system and as a wood preservative was shown to significantly inhibit the growth of T. versicolor. 相似文献
16.
Gibberellic acid controlled the key developmental processes of the life cycle of landing plants, and regulated the growth and development of plants. In this study, a novel gibberellin receptor gene EuGID1 was obtained from Eucommia ulmoides Oliver. The cDNA of EuGID1 was 1556 bp, and the open reading frame was 1029 bp, which encoded 343 amino acids. EuGID1 had the homology sequence with the hormone-sensitive lipase family. Amino acid sequence alignment confirmed EuGID1 protein had the highest homology with the GID1 protein of Manihot esculenta. EuGID1 was located in the nucleus and cell membrane and had expression in four plant organs. Overexpression of EuGID1 in transgenic Arabidopsis plants promoted plant elongation and increased siliques yield. 相似文献
17.
Yanhua Li Hualei Huang Youming Shi Shuqin Huang Tao Liu Changming Xiao Xiaoqing Tian Ping Zhao Xiaoyan Dai Taocui Huang Yan Zhou 《Phyton》2023,92(3):815-835
Gibberellin 2-oxidases (GA2ox) are important enzymes that maintain the balance of bioactive GAs in plants. GA2ox genes have been identified and characterized in many plants, but these genes were not investigated in Brassica napus. Here, we identified 31 GA2ox genes in B. napus and 15 of these BnaGA2ox genes were distributed in the A and C subgenomes. Subcellular localization predictions suggested that all BnaGA2ox proteins were localized in the cytoplasm, and gene structure analysis showed that the BnaGA2ox genes contained 2–4 exons. Phylogenetic analysis indicated that BnGA2ox family proteins in monocotyledons and dicotyledons can be divided into four groups, including two C19-GA2ox and two C20-GA2ox clades. Group 4 is a C20-GA2ox Class discovered recently. Most BnaGA2ox genes had a syntenic relationship with AtGA2ox genes. BnaGA2ox genes in the C subgenome had experienced stronger selection pressure than genes in the A subgenome. BnaGA2ox genes were highly expressed in specific tissues such as those involved in growth and development, and most of them were mainly involved in abiotic responses, regulation of phytohormones and growth and development. Our study provided a valuable evolutionary analysis of GA2ox genes in monocotyledons and dicotyledons, as well as an insight into the biological functions of GA2ox family genes in B. napus. 相似文献
18.
Aconitum vilmorinianum, a well-known traditional Chinese herb, is recently being threatened by overexploitation
and environment disturbance. This study was conducted to provide propagation methods through in vitro germination and explant cultivation. Germination was stimulated up to 66.00% on Murashige and Skoog (MS) medium containing 2.0 mg L−1 6-benzylaminopurine (BAP), 0.1 mg L−1 1-napthaleneacetic acid (NAA), and 30 g L−1
sucrose. Three bacteria (Pantoea agglomerans, Erwinia persicina, and Pseudomonas tolaasii) would be responsible
for consistent contamination during germination. The latter two were effectively eradicated after disinfected. The
influence of explant types and hormone combinations on direct and indirect organogenesis was evaluated in the
present work. The frequency of shoot induction from axillary bud explants was 100% on the MS fortified with
2.0 mg L−1 BAP and 0.3 mg L−1 NAA. Shoots multiplication was optimized on MS medium supplemented with
0.1 mg L−1 thidiazuron (TDZ) and 0.1 mg L−1 NAA. High callus induction percentage (96.67%) was obtained
from stem segments on MS medium with 2.0 mg L−1 2,4-D, then successfully regenerated into shoots on MS medium in the presence of 0.1 mg L−1 TDZ and 0.2 mg L−1 NAA. The present work could be useful for the utilization
and conservation of this valuable species. 相似文献
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20.
Yan Li Renquan Huang Jianrong Li Xiaozhen Huang Xiaofang Zeng Degang Zhao 《Phyton》2021,90(1):111-127
Plant architecture is a vital agronomic trait to control yield in rice (Oryza sativa L.). A dwarf and small seed 1 (dss1) mutant were obtained from the ethyl methanesulfonate (EMS) mutagenized progeny of a Guizhou glutinous landrace cultivar, Lipingzabianhe. The dss1 mutant displayed phenotypes similar to those of brassinosteroid (BR) deficient mutants, such as dwarfing, dark green and rugose erect leaves, small seeds, and loner neck internode panicles with primary branching. In our previous study, the underlying DSS1 gene was isolated, a novel allele of OsDWARF (OsBR6ox) that encodes a cytochrome P450 protein involved in the BR biosynthetic pathway by MutMap technology. In this work, we confirmed that a Thr335Ile amino acid substitution residing in DSS1/OsDWARF was responsible for the dwarf, panicle architecture, and small seed phenotypes in the dss1 mutants by genetic transformation experiments. The overexpression of OsDWARF in the dss1 mutant background could not only recover dss1 to the normal plant height and panicle architecture but also rescued normal leaf angles, seed size, and leaf color. Thus, the specific mutation in DSS1/OsDWARF influenced plant architecture, seed size, and chlorophyll biosynthesis. 相似文献