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Genetics, Evolution, and Conservation of Island Plants
Steven J. Franks 한국식물학회 2010 Journal of Plant Biology Vol.53 No.1
Islands are ideal model systems for testing ecological and evolutionary theory. This article reviews and synthesizes the findings of 24 studies of population genetics of island plants to gain insight into ecological and evolutionary processes on these unique, insular habitats. The studies reviewed found evidence for limited gene flow among islands and high genetic structure, but few tested for isolation by distance or among models of gene flow. Few studies compared diversity on islands with mainland populations or tested for bottlenecks, and the small number that did produced split results. Studies of rare species generally found that multiple islands would need to be protected to preserve genetic diversity. This review shows that surprisingly little work has been done to test theory using studies of population genetics on islands, and further work on testing among models of gene flow and examining population bottlenecks would be especially useful.
Suspensions and polymers - Common links in rheology
Harrison, G.,Franks, G.V.,Tirtaatmadja, V.,Boger, D.V. The Korean Society of Rheology 1999 Korea-Australia rheology journal Vol.11 No.3
Rheological techniques are frequently used to characterize particulate suspensions and polymer systems. Experimental data frequently show that similar trends and characteristics are found in both systems. Using common examples and illustrations of the rheological behaviour, we attempt to bring together these separate fields and investigate the common links in the different systems. In many cases the similar rheological behaviour observed in these different systems can be related to the same basic physical principles.
Non-Infectious Granulomatous Lung Disease: Imaging Findings with Pathologic Correlation
Tomás Franquet,Teri J. Franks,Jeffrey R. Galvin,Marchiori Edson,Giménez Ana,Mazzini Sandra,Johkoh Takeshi,Kyung Soo Lee 대한영상의학회 2021 Korean Journal of Radiology Vol.22 No.8
Non-infectious granulomatous lung disease represents a diverse group of disorders characterized by pulmonary opacities associated with granulomatous inflammation, a relatively nonspecific finding commonly encountered by pathologists. Some lesions may present a diagnostic challenge because of nonspecific imaging features; however, recognition of the various imaging manifestations of these disorders in conjunction with patients’ clinical history, such as age, symptom onset and duration, immune status, and presence of asthma or cutaneous lesions, is imperative for narrowing the differential diagnosis and determining appropriate management of this rare group of disorders. In this pictorial review, we describe the pathologic findings of various non-infectious granulomatous lung diseases as well as the radiologic features and high-resolution computed tomography imaging features.
Lee, B.H.,Wynn, A.N.,Franks, R.G.,Hwang, Y.s.,Lim, J.,Kim, J.H. Academic Press 2014 Developmental Biology Vol.386 No.1
Reproductive success of angiosperms relies on the precise development of the gynoecium and the anther, because their primary function is to bear and to nurture the embryo sac/female gametophyte and pollen, in which the egg and sperm cells, respectively, are generated. It has been known that the GRF-INTERACTING FACTOR (GIF) transcription co-activator family of Arabidopsis thaliana (Arabidopsis) consists of three members and acts as a positive regulator of cell proliferation. Here, we demonstrate that GIF proteins also play an essential role in development of reproductive organs and generation of the gamete cells. The gif1 gif2 gif3 triple mutant, but not the single or double mutants, failed to establish normal carpel margin meristem (CMM) and its derivative tissues, such as the ovule and the septum, resulting in a split gynoecium and no observable embryo sac. The gif triple mutant also displayed severe structural and functional defects in the anther, producing neither microsporangium nor pollen grains. Therefore, we propose that the GIF family of Arabidopsis is a novel and essential component required for the cell specification maintenance during reproductive organ development and, ultimately, for the reproductive competence.