Juice Vesicle Populations in Citrus Fruit

Tisserat, Brent; Jones, D. Breese; Galletta, Paul D.

doi:10.1086/337806

Cited by 12 publications

(4 citation statements)

References 13 publications

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“…Pectin content in orange juice ranges from 0.037 to 1.433 mg g –1 , depending on cultivar and harvest time . On the other hand, DNA content in orange juice is estimated about to be 0.3–0.5 μg g –1 , calculated based on the following estimation: nucleic DNA 0.68–0.98 pg per citrus cell; , <600 juice vesicles per segment; , 8 segments per orange fruit to produce 100 g of juice. Without removal of pectin, the DNA could not be extracted because presumably most of the DNA was trapped in the pectin gel mixture.…”

Section: Resultsmentioning

confidence: 99%

Extraction of DNA from Orange Juice, and Detection of Bacterium Candidatus Liberibacter asiaticus by Real-Time PCR

Bai¹,

Baldwin²,

Liao

et al. 2013

J. Agric. Food Chem.

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Orange juice processed from Huanglongbing (HLB) affected fruit is often associated with bitter taste and/or off-flavor. HLB disease in Florida is associated with Candidatus Liberibacter asiaticus (CLas), a phloem-limited bacterium. The current standard to confirm CLas for citrus trees is to take samples from midribs of leaves, which are rich in phloem tissues, and use a quantitative real-time polymerase chain reaction (qPCR) test to detect the 16S rDNA gene of CLas. It is extremely difficult to detect CLas in orange juice because of the low CLas population, high sugar and pectin concentration, low pH, and possible existence of an inhibitor to DNA amplification. The objective of this research was to improve extraction of DNA from orange juice and detection of CLas by qPCR. Homogenization using a sonicator increased DNA yield by 86% in comparison to mortar and pestle extraction. It is difficult to separate DNA from pectin; however, DNA was successfully extracted by treating the juice with pectinase. Application of an elution column successfully removed the unidentified inhibitor to DNA amplification. This work provided a protocol to extract DNA from whole orange juice and detect CLas in HLB-affected fruit.

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Section: Resultsmentioning

confidence: 99%

Extraction of DNA from Orange Juice, and Detection of Bacterium Candidatus Liberibacter asiaticus by Real-Time PCR

Bai¹,

Baldwin²,

Liao

et al. 2013

J. Agric. Food Chem.

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“…The vesicle is the membranous content of the fruit's endocarp [10] and its structure is similar to cells or embryos. It has a somewhat irregular elliptical shape with around 6 mm in length and about 2 mm in width.…”

Section: Preliminary Experimental Results On Musical Tuning Enhamentioning

confidence: 99%

Musical tuning enhanced in-vitro micro/nano palpation for multi-scale biological entities

Luo

Shen

2013

2013 13th IEEE International Conference on Nanotechnology (IEEE-NANO 2013)

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This paper presents our recent research efforts on creating a musical tuning enhanced in-vitro micro/nano palpation system that will help to intuitively and interactively identify (by hearing) the mechanical signature or bio-marker of multi-scale biological entities, including cells, embryos, tissues, and organs. This work takes the concept of acoustic stethoscope and applies it to intuitively understand clues between micro or nano mechanical properties change and pathology of biological entities through humans' multi-modal perception capabilities. During implementation, a developed highly sensitive microforce sensor serves as "acoustic stethoscope" that be able to access the surface of biological entity and measures its mechanical properties and changes. These measurements are then converted into 88-key piano musical voices for hearing and identification in real time. Preliminary experimental results demonstrate the performance of the developed microforce sensor and the musical tuning methodology, as well successful in-vitro micro palpation on the fruit vesicles. Our research is a major step towards a multi-modal, intuitive, and interactive system engineering approach for biomedical studies such as cellular pathology, tissue engineering, plant and animal physiology.

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“…Each fused carpel, which comprises a segment, may contain hundreds of juice vesicles (Tisserat, Jones, and Galletta, 1990). Each fused carpel, which comprises a segment, may contain hundreds of juice vesicles (Tisserat, Jones, and Galletta, 1990).…”

mentioning

confidence: 99%

“…The edible portion of Citrus fruits are primarily composed ofjuice vesicles enclosed in a locule by triangularly lunate fused carpels. Each fused carpel, which comprises a segment, may contain hundreds of juice vesicles (Tisserat, Jones, and Galletta, 1990). Juice vesicles arise as a result of anticlinal and then periclinal divisions of epidermal and subepidermal cells of the inner carpel wall.…”

mentioning

confidence: 99%

Carpellary Outgrowth Development in the Endocarp of Grapefruit, Citrus paradisi (Rutaceae)

Burns¹,

Achor²,

Echeverrı́a³

1994

American Journal of Botany

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The development and function of the carpellary outgrowth was investigated in grapefruit. Carpellary outgrowths were initiated 3 d postanthesis. By 7 d postanthesis, enlarged globose cells developed that were subtended by a parenchymatous stalk. Numerous Golgi, Golgi‐derived vesicles, endoplasmic reticulum, mitochondria, and thickened cell walls present in globose cells from 7 d to 3 mo postanthesis suggest that the carpellary outgrowth was secretory in nature. Lectin‐gold complex binding indicated that the secreted product contained galactose and arabinose. Cessation of secretory activity, marked by protoplast degeneration, occurred between 3 and 5 mo postanthesis.

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Juice Vesicle Populations in Citrus Fruit

Cited by 12 publications

References 13 publications

Extraction of DNA from Orange Juice, and Detection of Bacterium Candidatus Liberibacter asiaticus by Real-Time PCR

Extraction of DNA from Orange Juice, and Detection of Bacterium Candidatus Liberibacter asiaticus by Real-Time PCR

Musical tuning enhanced in-vitro micro/nano palpation for multi-scale biological entities

Carpellary Outgrowth Development in the Endocarp of Grapefruit, Citrus paradisi (Rutaceae)

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