Automated, in vitro harvest of somatic embryos

Harrell, R. C.; Bieniek, Marianne E.; Hood, C.F.; Munilla, R.; Cantliffe, Daniel J.

doi:10.1007/bf00033924

Cited by 23 publications

(8 citation statements)

References 11 publications

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“…The computer projected 32 radii at equiangular increments from the centroid of an imaged embryo. Using the radii lengths and their points of intersection with the embryo perimeter, nine features describing embryo shape were measured, as defined in Harrell et al (1994).…”

Section: Methodsmentioning

confidence: 99%

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Enhancement of somatic embryogenesis of Ipomoea batatas in solid eultures and production of mature somatic embryos in liquid cultures for application to a bioreactor production system

Bienick

Harrell

Cantliffe

1995

Plant Cell Tiss Organ Cult

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Somatic embryos of Ipomoea batatas Lam. (sweet potato cv. 'White Star') were produced in an airlift bioreactor. This work describes the optimization of the embryogenic system on semisolid medium, followed by transfer of the system to liquid cultures and ultimately to the airlift bioreactor. The physiological age of embryogenic callus influenced the number and overall morphology of the embryo population in both semisolid and liquid medium. Maximum mature embryo production (35 embryos 10 mg-~ inoculum) was obtained from six-week-old callus at 30°C. Somatic embryogenesis occurred in liquid cultures containing 20 mM NH4NO3 and 30 mM KC1. Globular embryos formed and continued development in suspension producing viable, mature cotyledonary embryos by day 14. Embryo formation and development was limited in the bioreactor. Although shear stress was responsible for some embryogenic damage, the effect of purging the system with fresh air needed to be investigated. To isolate aeration effects from shear stress effects, atmospheric determinations were performed on shaker flask cultures. Initially the gas composition within the Erlenmeyer headspace was that of room air. Ethylene increased to a maximum of 6.4 ppm (day 16), maximum CO2, 21.2%, was also evident on day 16, and oxygen was depleted to a minimum of 8.1% by day 14. Purging the cultures with fresh air reduced the number of embryos formed; however, they were significantly longer than those formed in closed flasks. The gas response model of Ipomoea batatas will enable atmosphere replenishment in the bioreactor mimicking that of the shaker flask environment. Once the damaging effects of shear stress have been overcome, the regulation of bioreactor gasses should allow somatic embryo formation in the bioreactor comparable to that in shaker flasks.

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Section: Methodsmentioning

confidence: 99%

“…Some embryos were visibly torn and bruised, and were not considered harvestable. When the reactors were inoculated with cultures containing mature embryos (Harrell et al 1994), the embryos were often damaged.…”

Section: Embryogenesis In the Bioreactormentioning

confidence: 99%

Enhancement of somatic embryogenesis of Ipomoea batatas in solid eultures and production of mature somatic embryos in liquid cultures for application to a bioreactor production system

Bienick

Harrell

Cantliffe

1995

Plant Cell Tiss Organ Cult

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“…Imaging tools were used to characterize plant cell embryo cultures grown in petri dishes for automatic sorting (10,11), and to assess their potential for conversion into plants (22) based on their morphology (40,41). Computer imaging was also coupled with standard or fluorescence microscopy using an external sampling loop or ex situ imaging for monitoring of microbial (42), yeast (26,36), fungal (39), and mammalian cell cultures (37).…”

Section: Introductionmentioning

confidence: 99%

“…The mean aggregate thickness (2 = 0.5r~ u with a = minor semiaxis) represents the light path through an aggregate. X v obtained from (o) manual and (o) automatic segmentation and as a function of the number of images processed;(11) represents the 95% confidence interval on the manually segmented estimates.FIG. 6.…”

mentioning

confidence: 99%

Application of imaging tools to plant cell culture: Relationship between plant cell aggregation and flavonoid production

Pépin

Smith

Reid

1999

In Vitro Cell.Dev.Biol.-Plant

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Image analysis tools were developed to measure biomass concentration, aggregate size and distribution, and pigmentation from anthocyanin-producing cell suspension cultures of ohelo (Vaccinium pahalae). The ex situ imaging system could image cell aggregates from 30 gm to 2 mm in diameter. The image analysis algorithm was based on extracted geometric features and morphological methods for biomass volume estimates, and hue, saturation, and intensity color characteristics for pigmentation estimates. Detailed information available from sampled cell culture images was validated by comparison to standard destructive manual measurements. Image analysis measurements revealed that pigment accumulation was negatively correlated with aggregate size. Although a substantial proportion of small aggregates remained colorless, the highlypigmented small aggregates, 18 to 238 gm in breadth, contributed over 70% of the culture anthocyanin production (mg L 1), despite their minor contribution to the overall biomass. The relative frequency of pigmented aggregates was higher in large-size aggregate classes; however, the pigmented sectors were mostly confined to only the periphery of the aggregates. As a result, large aggregate classes had only a minor contribution to overall culture anthocyanin yield.

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“…[2,[5][6][7][8][9][10][11]. The bioreactor technologies are also studied on their characteristics [5,[12][13][14][15][16] and on propagation of several plant species including shoots and somatic embryos [17][18][19][20][21][22][23][24][25][26][27][28][29].…”

Section: Introductionmentioning

confidence: 99%

Bioengineering Aspects Of Bioreactor Application In Plant Propagation

Takayama

Akita

Plan Tissue Culture Engineering

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Automated, in vitro harvest of somatic embryos

Cited by 23 publications

References 11 publications

Enhancement of somatic embryogenesis of Ipomoea batatas in solid eultures and production of mature somatic embryos in liquid cultures for application to a bioreactor production system

Enhancement of somatic embryogenesis of Ipomoea batatas in solid eultures and production of mature somatic embryos in liquid cultures for application to a bioreactor production system

Application of imaging tools to plant cell culture: Relationship between plant cell aggregation and flavonoid production

Bioengineering Aspects Of Bioreactor Application In Plant Propagation

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