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Sunil Kumar,Manisha Mangal,A. K. Dhawan,Narender Singh 한국식물생명공학회 2012 Plant biotechnology reports Vol.6 No.2
Jojoba (Simmondsia chinensis), is a medicinal and oil-yielding, multi-purpose species of the family Simmondsiaceae. The most valuable product of jojoba seed is the liquid wax or jojoba oil which is used extensively in the cosmetic and bio-fuel industry. Propagation of jojoba is possible using conventional methods, but it is time consuming and cumbersome owing to long rotation periods, male-biased population, and long flowering and seed set time. The development of an efficient regeneration system is a prerequisite for a number of biotechnological interventions for the improvement of jojoba, such as genetic transformation, production of useful metabolites in vitro, etc. During the past decade, therefore, several attempts have been made for in vitro propagation of jojoba. Organogenesis has been achieved in this species from mature as well as juvenile explants. Present communication reports an overview of the in vitro regeneration of jojoba via organogenesis and somatic embryogenesis. Factors affecting organogenesis as well as production of synthetic seeds using shoot tips and axillary buds have also been discussed; however, efforts need to be made to develop an efficient genetic transformation system in jojoba. The purpose of this review is to focus upon the current information on in vitro propagation and biotechnological advances made in jojoba.
In vivo NIRF and MR dual-modality imaging using glycol chitosan nanoparticles
Key, J.,Cooper, C.,Kim, A.Y.,Dhawan, D.,Knapp, D.W.,Kim, K.,Park, J.H.,Choi, K.,Kwon, I.C.,Park, K.,Leary, J.F. Elsevier Science Publishers 2012 Journal of controlled release Vol.163 No.2
One difficulty of diagnosing and treating cancer is that it is very challenging to detect cancers in the early stages before metastasis occurs. A variety of imaging modalities needs to be used from non-invasive, moderate resolution modalities, such as magnetic resonance imaging (MRI) to very high-resolution (e.g. fluorescence) imaging that can help guide surgeons during a surgical operation. While MRI can have relatively high resolution and deep penetration to visualize soft tissues, low sensitivity of MRI frequently requires tumor imaging agents to enhance the MRI contrast at the tumor site. At the other end of the resolution spectrum, near infrared fluorescence (NIRF) imaging has very high sensitivity but frequently cannot be utilized for initial human in vivo imaging due to its very limited penetration depth. To combine the advantages of each imaging modality we have constructed MRI and NIRF dual-modality nanoparticles using glycol chitosan, Cy5.5, and superparamagnetic iron oxide nanoparticles (SPIOs). We have demonstrated these advantages for dual-modality, in vivo tumor imaging in mice. Our studies suggest the potential use of NIRF and MR dual modality imaging for human cancer diagnosis.