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Genetic analysis of freezing tolerance in blueberry (Vaccinium section Cyanococcus) (2000)

Arora, R. ; Rowland, L. J. ; Lehmann, J. S. ; [et al.]

Springer

Theoretical and applied genetics 100 (2000), S. 690-696

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ISSN: 1432-2242

Keywords: Key words Cold hardiness ; Blueberry ; Inheritance ; Gene action ; Woody perennials

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract An understanding of the genetic control of freezing tolerance (FT) in woody perennials is important for the effective selection and development of plants with a broader climatic adaptation. This study was undertaken to examine the inheritance and gene action of FT in segregating populations of a woody perennial blueberry (Vaccinium, section Cyanococcus). Two backcross populations were derived from interspecific hybrids of the diploid species Vaccinium darrowi and Vaccinium caesariense, which are widely divergent in their FT. The bud FTs of uniformly cold acclimated plants of parental, F1, and two backcross populations were evaluated with a laboratory controlled freeze-thaw regime, followed by a visual assessment of injury. FT (LT50) was defined as the temperature causing 50% of the flower buds to be injured. Data indicate that the two parents were homozygous for genes for low or high FT. Freezing-tolerance values of the parental and F1 populations indicate that freeze-sensitivity is a partially dominant trait. Results from reciprocal crosses revealed that there was no significant maternal influence on freezing tolerance. Parental phenotypes were fully recovered in 40–42 plants of each testcross population, suggesting that FT is determined by relatively few genes. The degree of dominance and an analysis of generation means revealed that FT in blueberry is controlled largely by additive gene effects and, to a lesser degree, by dominance gene effects. Testing of various genetic models indicated that FT inheritance can be adequately explained by a simple additive-dominance model; however, two epistatic models involving additive-additive and dominance-dominance interactions also fit the data.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001220051341

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A 25-kDa dehydrin associated with genotype- and age-dependent leaf freezing-tolerance in Rhododendron: a genetic marker for cold hardiness? (1999)

Lim, C. C. ; Krebs, S. L. ; Arora, R.

Springer

Theoretical and applied genetics 99 (1999), S. 912-920

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ISSN: 1432-2242

Keywords: Key words Cold acclimation ; Dehydrins ; Juvenility ; Genetic marker ; Woody perennials

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Dehydrins are plant proteins that may play a critical role in stabilizing cell functions during freezing and other dehydrative stresses. This study examines whether dehydrin expression in leaves is associated with varying levels of freezing-tolerance among F2 segregants, species, and cultivars of evergreen Rhododendron. Experiments were also conducted to determine whether physiological and chronological aging affects freezing-tolerance and dehydrin accumulation in Rhododendron leaf tissues. Our results indicate that in cold-acclimated F2 populations, levels of a 25-kDa dehydrin were closely associated with differences in leaf freezing-tolerance (LFT) among segregants. Studies of wild and cultivated plants indicated that LFT increased with both chronological age and developmental phase-change (juvenile to mature plants) and that this trend was accompanied by increased accumulation of the 25-kDa dehydrin. It is suggested that presence or absence of the 25-kDa dehydrin could serve as a genetic marker to distinguish between super cold-hardy and less cold-hardy rhododendron genotypes. Similarly, the relative level of this protein within a genotype can serve as a physiological indicator of freezing-tolerance status under a range of phenological (acclimation) or developmental (age) conditions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001220051312

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Constitutive Expression of a Dominant-Negative TGF-{beta} Type II Receptor in the Posterior Left Atrium Leads to Beneficial Remodeling of Atrial Fibrillation Substrate [Integrative Physiology] (2016)

Kunamalla, A., Ng, J., Parini, V., Yoo, S., McGee, K. A., Tomson, T. T., Gordon, D., Thorp, E. B., Lomasney, J., Zhang, Q., Shah, S., Browne, S., Knight, B. P., Passman, R., Goldberger, J. J., Aistrup, G., Arora, R.

American Heart Association (AHA)

In: Circulation Research

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Publication Date: 2016-06-24

Description: Rationale: Fibrosis is an important structural contributor to formation of atrial fibrillation (AF) substrate in heart failure. Transforming growth factor-β (TGF-β) signaling is thought to be intricately involved in creation of atrial fibrosis. Objective: We hypothesized that gene-based expression of dominant-negative type II TGF-β receptor (TGF-β-RII-DN) in the posterior left atrium in a canine heart failure model will sufficiently attenuate fibrosis-induced changes in atrial conduction and restitution to decrease AF. Because AF electrograms are thought to reflect AF substrate, we further hypothesized that TGF-β-RII-DN would lead to increased fractionation and decreased organization of AF electrograms. Methods and Results: Twenty-one dogs underwent injection+electroporation in the posterior left atrium of plasmid expressing a dominant-negative TGF-β type II receptor (pUBc-TGFβ-DN-RII; n=9) or control vector (pUBc- LacZ ; n=12), followed by 3 to 4 weeks of right ventricular tachypacing (240 bpm). Compared with controls, dogs treated with pUBC-TGFβ-DN-RII demonstrated an attenuated increase in conduction inhomogeneity, flattening of restitution slope and decreased duration of induced AF, with AF electrograms being more fractionated and less organized in pUBc-TGFβ-DN-RII versus pUBc- LacZ dogs. Tissue analysis revealed a significant decrease in replacement/interstitial fibrosis, p-SMAD2/3 and p-ERK1/2. Conclusions: Targeted gene-based reduction of TGF-β signaling in the posterior left atrium—with resulting decrease in replacement fibrosis—led to beneficial remodeling of both conduction and restitution characteristics of the posterior left atrium, translating into a decrease in AF and increased complexity of AF electrograms. In addition to providing mechanistic insights, this data may have important diagnostic and therapeutic implications for AF.

Keywords: Arrhythmias, Electrophysiology, Animal Models of Human Disease, Gene Therapy, Heart Failure

Print ISSN: 0009-7330

Electronic ISSN: 1524-4571

Topics: Medicine

Published by American Heart Association (AHA)

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