Respon Kunir Putih (Kaempferia rotunda) terhadap Pemberian IBA dan BAP pada Kultur In Vitro

Kaempferia rotunda that long ago been used to treat gastrointestinal disorders and also treat cancer, has promising opportunities to cultivate. There are several obstacles in cultivation today. Plant propagation by in vitro can be one solution. Basic media and plant growth promoting substance usage is an important factor which has to be concerned. Research aiming to produce high quality seed and in large numbers. Research has been carried out in Tissue Culture Laboratory, Agriculture Faculty, Sebelas Maret University, Surakarta, during July 2014 to August 2015. This research was used MS (Murashige and Skoog) media with combination treatment of each IBA and BAP concentration of 0, 1, 2, 3, and 4 ppm. The number of shoots that appear on the explant is the main observation variables. The results showed IBA and BAP are likely to affect the appearance of buds as much as 2 pieces in each explant at 0 ppm IBA treatment.

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Effect of Cytokines On The In Vitro of Sweet Kaffir Lime (Citrus hystrix Dc)

Journal of Tropical Horticulture ◽

10.33089/jthort.v3i2.51 ◽

2020 ◽

Vol 3 (2) ◽

pp. 60

Author(s):

Rd. Selvy Handayani ◽

Ismadi Yunus ◽

Nadia Tillah ◽

Ira Handayani

Keyword(s):

Tissue Culture ◽

Shoot Growth ◽

Plant Propagation ◽

Number Of Leaves ◽

Local Plants ◽

Propagation Technique ◽

High Quality Seed ◽

The Right ◽

Culture Technology

Sweet kaffir lime (Citrus hystrix Dc), also called "Boh Kruet Mameh" is one of Aceh's local plants, which is currently very difficult to obtain. Sweet kaffir lime is not like the ordinary kaffir lime, which tastes sour. The fruit of sweet kaffir lime has a larger size than the regular kaffir lime, sweet and sour taste, aromatic and fresh, which can be consumed as a fruit table. The problem of developing the propagation technique of sweet kaffir lime plants is the seeds' condition, which are conventionally difficult to germinate and limited in number, making it difficult to get a high-quality seed. Thus, to overcome these problems, suitable solutions to plant propagation techniques should be sought. As for the right plant propagation technique is tissue culture technology or in vitro propagation technique. This research was conducted at the Plant Tissue Culture Laboratory, Faculty of Agriculture, Malikussaleh University. The research was conducted from February to April 2018. This research used a single randomized complete design (CRD) with ten replications. The treatment is a combination of the basic media, which consists of MS0 (MS media without BAP) and MS1 (MS + BAP 4 ppm). The result showed that the adduction of 4 ppm BAP in MS media influenced the in vitro sweet kaffir lime seeds' growth. Sweet kaffir lime seeds that were given 4 ppm BAP grew buds faster with more percentage of shoot growth, the number of shoots, and a number of leaves than the seeds without BAP adduction.

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Potential Role and Utilization of Plant Growth Promoting Microbes in Plant Tissue Culture

Frontiers in Microbiology ◽

10.3389/fmicb.2021.649878 ◽

2021 ◽

Vol 12 ◽

Author(s):

Abdoulaye Soumare ◽

Abdala G. Diédhiou ◽

Naveen Kumar Arora ◽

Laith Khalil Tawfeeq Al-Ani ◽

Mariama Ngom ◽

...

Keyword(s):

Tissue Culture ◽

Plant Growth ◽

Plant Tissue Culture ◽

Plant Tissue ◽

Culture Techniques ◽

Plant Growth Promoting ◽

Growth Promoting ◽

Plant Growth Promoting Microbes ◽

Aseptic Conditions

Plant growth promoting microbes (PGPMs) play major roles in diverse ecosystems, including atmospheric nitrogen fixation, water uptake, solubilization, and transport of minerals from the soil to the plant. Different PGPMs are proposed as biofertilizers, biostimulants, and/or biocontrol agents to improve plant growth and productivity and thereby to contribute to agricultural sustainability and food security. However, little information exists regarding the use of PGPMs in micropropagation such as the in vitro plant tissue culture. This review presents an overview of the importance of PGPMs and their potential application in plant micropropagation. Our analysis, based on published articles, reveals that the process of in vitro classical tissue culture techniques, under strictly aseptic conditions, deserves to be reviewed to allow vitroplants to benefit from the positive effect of PGPMs. Furthermore, exploiting the potential benefits of PGPMs will lead to lessen the cost production of vitroplants during micropropagation process and will make the technique of plant tissue culture more efficient. The last part of the review will indicate where research is needed in the future.

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In vitro compatibility evaluation of agriusable nanochitosan on beneficial plant growth-promoting rhizobacteria and maize plant

National Academy Science Letters ◽

10.1007/s40009-021-01047-w ◽

2021 ◽

Cited By ~ 1

Author(s):

Upasana Agri ◽

Parul Chaudhary ◽

Anita Sharma

Keyword(s):

Plant Growth ◽

Plant Growth Promoting Rhizobacteria ◽

Maize Plant ◽

Plant Growth Promoting ◽

Growth Promoting

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A prospectus of plant growth promoting endophytic bacterium from orchid (Vanda cristata)

BMC Biotechnology ◽

10.1186/s12896-021-00676-9 ◽

2021 ◽

Vol 21 (1) ◽

Author(s):

Sujit Shah ◽

Krishna Chand ◽

Bhagwan Rekadwad ◽

Yogesh S. Shouche ◽

Jyotsna Sharma ◽

...

Keyword(s):

Plant Growth ◽

Root Colonization ◽

Endophytic Bacterium ◽

Epifluorescence Microscopy ◽

In Vitro Cultivation ◽

Rrna Gene ◽

Bacillus Spp ◽

Plant Growth Promoting ◽

Growth Promoting

Abstract Background A plant growth-promoting endophytic bacterium PVL1 isolated from the leaf of Vanda cristata has the ability to colonize with roots of plants and protect the plant. PVL1 was isolated using laboratory synthetic media. 16S rRNA gene sequencing method has been employed for identification before and after root colonization ability. Results Original isolated and remunerated strain from colonized roots were identified as Bacillus spp. as per EzBiocloud database. The presence of bacteria in the root section of the plantlet was confirmed through Epifluorescence microscopy of colonized roots. The in-vitro plantlet colonized by PVL1 as well as DLMB attained higher growth than the control. PVL1 capable of producing plant beneficial phytohormone under in vitro cultivation. HPLC and GC-MS analysis suggest that colonized plants contain Indole Acetic Acid (IAA). The methanol extract of Bacillus spp., contains 0.015 μg in 1 μl concentration of IAA. PVL1 has the ability to produce antimicrobial compounds such as ethyl iso-allocholate, which exhibits immune restoring property. One-way ANOVA shows that results were statistically significant at P ≤ 0.05 level. Conclusions Hence, it has been concluded that Bacillus spp. PVL1 can promote plant growth through secretion of IAA during root colonization and ethyl iso-allocholate to protect plants from foreign infections. Thus, this study supports to support Koch’s postulates of bacteria establishment.

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Multi-Trait Wheat Rhizobacteria from Calcareous Soil with Biocontrol Activity Promote Plant Growth and Mitigate Salinity Stress

Microorganisms ◽

10.3390/microorganisms9081588 ◽

2021 ◽

Vol 9 (8) ◽

pp. 1588

Author(s):

Anastasia Venieraki ◽

Styliani N. Chorianopoulou ◽

Panagiotis Katinakis ◽

Dimitris L. Bouranis

Keyword(s):

Plant Growth ◽

Salinity Stress ◽

Calcareous Soil ◽

In Vitro Studies ◽

Pgp Traits ◽

Biocontrol Activity ◽

Plant Growth Promoting ◽

Growth Promoting ◽

Microbial Fertilizers

Plant growth promoting rhizobacteria (PGPR) can be functional microbial fertilizers and/or biological control agents, contributing to an eco-spirit and safe solution for chemical replacement. Therefore, we have isolated rhizospheric arylsulfatase (ARS)-producing bacteria, belonging to Pseudomonas and Bacillus genus, from durum wheat crop grown on calcareous soil. These isolates harbouring plant growth promoting (PGP) traits were further evaluated in vitro for additional PGP traits, including indole compounds production and biocontrol activity against phytopathogens, limiting the group of multi-trait strains to eight. The selected bacterial strains were further evaluated for PGP attributes associated with biofilm formation, compatibility, salt tolerance ability and effect on plant growth. In vitro studies demonstrated that the multi-trait isolates, Bacillus (1.SG.7, 5.SG.3) and Pseudomonas (2.SG.20, 2.C.19) strains, enhanced the lateral roots abundance and shoots biomass, mitigated salinity stress, suggesting the utility of beneficial ARS-producing bacteria as potential microbial fertilizers. Furthermore, in vitro studies demonstrated that compatible combinations of multi-trait isolates, Bacillus sp. 1.SG.7 in a mixture coupled with 5.SG.3, and 2.C.19 with 5.SG.3 belonging to Bacillus and Pseudomonas, respectively, may enhance plant growth as compared to single inoculants.

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Quorum-sensing signals produced by plant-growth promoting Burkholderia strains under in vitro and in planta conditions

Research in Microbiology ◽

10.1016/j.resmic.2006.11.013 ◽

2007 ◽

Vol 158 (3) ◽

pp. 287-294 ◽

Cited By ~ 21

Author(s):

Selvaraj Poonguzhali ◽

Munusamy Madhaiyan ◽

Tongmin Sa

Keyword(s):

Quorum Sensing ◽

Plant Growth ◽

In Planta ◽

Plant Growth Promoting ◽

Growth Promoting ◽

Quorum Sensing Signals

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ELECTRON MICROSCOPY OF PLASMA-CELL TUMORS OF THE MOUSE

The Journal of Cell Biology ◽

10.1083/jcb.9.2.369 ◽

1961 ◽

Vol 9 (2) ◽

pp. 369-381 ◽

Cited By ~ 14

Author(s):

D. F. Parsons ◽

M. A. Bender ◽

E. B. Darden ◽

Guthrie T. Pratt ◽

D. L. Lindsley

Keyword(s):

Electron Microscopy ◽

Tissue Culture ◽

Complex Structure ◽

Granular Body ◽

Virus Particles ◽

Culture Cells ◽

Large Numbers ◽

Tumor Agent

The X5563 tumor has been grown in tissue culture. Cells similar to those of the original tumor migrated from the explant and attached to the glass walls of the culture vessels. Electron microscopy showed that large numbers of particles, similar in morphology to virus particles, were associated with these cells after 7 days of culture. The two principal types of particles found in the tumor in vivo appear to be present in vitro. Many more of these particles, however, were larger and showed a more complex structure. Whereas the particles were mainly localized inside endoplasmic reticulum or the Golgi zone in the tumors in vivo, in the tissue culture the majority of the particles were associated with the plasma membrane and were found outside of the cells. The relation of the particles to the granular body is discussed as well as a possible relation to the mammary tumor agent.

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Plant Growth Promotion and Biocontrol Properties of Aneurinibacillus migulanus Isolated from Maize Roots (Zea mays)

Journal of Advances in Microbiology ◽

10.9734/jamb/2021/v21i1230412 ◽

2021 ◽

pp. 46-59

Author(s):

Lynda Kelvin Asogwa ◽

Frank C. Ogbo

Keyword(s):

Zea Mays ◽

Plant Growth ◽

Plant Height ◽

Pot Experiment ◽

Root Weight ◽

Dual Culture ◽

Maize Roots ◽

Plant Growth Promoting ◽

Growth Promoting

Aims: To isolate Plant Growth Promoting Bacillus strain from maize roots, to evaluate its biocontrol potentials and to characterize the isolate using16S rRNA sequencing. Place and Duration of Study: Department of Applied Microbiology and Brewing, Nnamdi Azikiwe University, Awka, between February 2019 and March 2020. Methodology: The isolation of Plant Growth Promoting Rhizobacteria (PGPR) from maize roots was done using Pikovskaya (PVK) agar. Quantitative determination of phosphate was carried out using PVK broth. Evaluations of other plant growth promoting properties were carried out such as IAA, etc. Fusarium and Enterobacter plant pathogens were isolated from diseased maize plants. The in vitro antagonism effects of the PGPR isolates against the pathogens were analyzed using the dual culture plate technique. The pot experiment was carried out in a completely randomized design. Plant characteristics such as plant height, shoot and root weight, chlorophyll content, as well as disease assessment were recorded accordingly. The organisms were identified using phenotypic and molecular methods. Results: Seven PGPR bacteria were isolated from maize (Zea mays) roots using PVK agar. Aneurinibacillus migulanus gave the highest solubilization index of 4.21 while isolate IS48 gave the lowest solubilization index of 1.47. A. migulanus produced IAA, ammonia and cellulase enzyme but no hydrogen cyanide. The organism showed antagonism activity against the two tested phytopathogens. In the pot experiment, A. migulanus treated plants showed a statistically insignificant difference in maize plant height at P=0.05 but gave significant increases in shoot and root wet weights. The organism offered 83.33% and 71.43% protection against Enterobacter and Fusarium pathogens respectively in the pot experiment. Conclusion: A. migulanus solubilized phosphate in addition to other plant growth promoting properties. It showed biocontrol potentials both in vitro and in vivo and thus can be used as substitute for synthetic agrochemicals.

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