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101.
Godefridus J. Peters Auke D. Adema Irene V. Bijnsdorp Marit L. Sandvold 《Nucleosides, nucleotides & nucleic acids》2013,32(12):1168-1180
Many drugs that are currently used for the treatment of cancer have limitations, such as induction of resistance and/or poor biological half-life, which reduce their clinical efficacy. To overcome these limitations, several strategies have been explored. Chemical modification by the attachment of lipophilic moieties to (deoxy)nucleoside analogs should enhance the plasma half-life, change the biodistribution, and improve cellular uptake of the drug. Attachment of a lipophilic moiety to a phosphorylated (deoxy)nucleoside analog will improve the activity of the drugs by circumventing the rate-limiting activation step of (deoxy)nucleoside analogs. Encapsulating drugs in nanoparticles or liposomes protects the drug against enzymatic breakdown in the plasma and makes it possible to get lipophilic compounds to the tumor site. In this review, we discuss the considerable progress that has been made in increasing the efficacy of classic (deoxy)nucleoside and fluoropyrimidine compounds by chemical modifications and alternative delivery systems. 相似文献
102.
Ira L. Blitz Jacob Biesinger Xiaohui Xie Ken W.Y. Cho 《Genesis (New York, N.Y. : 2000)》2013,51(12):827-834
Gene inactivation is an important tool for correlation of phenotypic and genomic data, allowing researchers to infer normal gene function based on the phenotype when the gene is impaired. New and better approaches are needed to overcome the shortfalls of existing methods for any significant acceleration of scientific progress. We have adapted the CRISPR/Cas system for use in Xenopus tropicalis and report on the efficient creation of mutations in the gene encoding the enzyme tyrosinase, which is responsible for oculocutaneous albinism. Biallelic mutation of this gene was detected in the F0 generation, suggesting targeting efficiencies similar to that of TALENs. We also find that off‐target mutagenesis seems to be negligible, and therefore, CRISPR/Cas may be a useful system for creating genome modifications in this important model organism. genesis 51:827–834. © 2013 Wiley Periodicals, Inc. 相似文献
103.
In eukaryotic cells consisting of many different types of organelles, targeting of organellar proteins is one of the most fundamental cellular processes. Proteins belonging to the endoplasmic reticulum (ER), chloroplasts and mitochondria are targeted individually from the cytosol to their cognate organelles. As the targeting to these organelles occurs in the cytosol during or after translation, the most crucial aspect is how specific targeting to these three organelles can be achieved without interfering with other targeting pathways. For these organelles, multiple mechanisms are used for targeting proteins, but the exact mechanism used depends on the type of protein and organelle, the location of targeting signals in the protein and the location of the protein in the organelle. In this review, we discuss the various mechanisms involved in protein targeting to the ER, chloroplasts and mitochondria, and how the targeting specificity is determined for these organelles in plant cells . 相似文献
104.
Kathleen D'Halluin Chantal Vanderstraeten Jolien Van Hulle Joanna Rosolowska Ilse Van Den Brande Anouk Pennewaert Kristel D'Hont Martine Bossut Derek Jantz Rene Ruiter Jean Broadhvest 《Plant biotechnology journal》2013,11(8):933-941
Recent developments of tools for targeted genome modification have led to new concepts in how multiple traits can be combined. Targeted genome modification is based on the use of nucleases with tailor‐made specificities to introduce a DNA double‐strand break (DSB) at specific target loci. A re‐engineered meganuclease was designed for specific cleavage of an endogenous target sequence adjacent to a transgenic insect control locus in cotton. The combination of targeted DNA cleavage and homologous recombination–mediated repair made precise targeted insertion of additional trait genes (hppd, epsps) feasible in cotton. Targeted insertion events were recovered at a frequency of about 2% of the independently transformed embryogenic callus lines. We further demonstrated that all trait genes were inherited as a single genetic unit, which will simplify future multiple‐trait introgression. 相似文献
105.
《MABS-AUSTIN》2013,5(5):919-929
ABSTRACTMultivalent mono- or bispecific antibodies are of increasing interest for therapeutic applications, such as efficient receptor clustering and activation, or dual targeting approaches. Here, we present a novel platform for the generation of Ig-like molecules, designated diabody-Ig (Db-Ig). The antigen-binding site of Db-Ig is composed of a diabody in the VH-VL orientation stabilized by fusion to antibody-derived homo- or heterodimerization domains, e.g., CH1/CL or the heavy chain domain 2 of IgE (EHD2) or IgM (MHD2), further fused to an Fc region. In this study, we applied the Db-Ig format for the generation of tetravalent bispecific antibodies (2 + 2) directed against EGFR and HER3 and utilizing different dimerization domains. These Db-Ig antibodies retained the binding properties of the parental antibodies and demonstrated unhindered simultaneous binding of both antigens. The Db-Ig antibodies could be purified by a single affinity chromatography resulting in a homogenous preparation. Furthermore, the Db-Igs were highly stable in human plasma. Importantly, only one short peptide linker (5 aa) per chain is required to generate a Db-Ig molecule, reducing the potential risk of immunogenicity. The presence of a fully functional Fc resulted in IgG-like pharmacokinetic profiles of the Db-Ig molecules. Besides tetravalent bispecific molecules, this modular platform technology further allows for the generation of other multivalent molecules of varying specificity and valency, including mono-, bi-, tri- and tetra-specific molecules, and thus should be suitable for numerous applications. 相似文献
106.
锌指核酸酶(zinc finger nucleases,ZFNs)由3到4个锌指结构(zinc fingers,ZFs)和FokⅠ核酸内切酶的剪切结构域组成。锌指核酸酶(ZFNs)通过锌指结构(ZFs)与特异核酸位点结合,再利用FokⅠ的酶切作用切割DNA,引起特异位点DNA双链断裂(double strand break,DSB)。DNA双链断裂可以通过非同源末端连接(non-homologous end joining,NHEJ) 或同源重组(homologous recombination,HR)来修复。在修复过程中实现对基因组DNA的靶向修饰。介绍了锌指核酸酶结构、人工构建途径,作用机理和试验步骤,重点综述了锌指核酸酶技术在植物基因工程的应用。 相似文献
107.
108.
Antonia P. Popova 《Journal of cell communication and signaling》2013,7(2):119-127
Bronchopulmonary dysplasia (BPD) is a chronic lung disease affecting premature infants with long term effect on lung function into adulthood. Multiple factors are involved in the development of BPD. This review will summarize the different mechanisms leading to this disease and highlight recent bench and clinical research targeted at understanding the role of the mesenchyme (both its cellular and extracellular components) in the pathogenesis of BPD. 相似文献
109.
110.
K. Göran Ronquist Bo Ek Jane Morrell Anneli Stavreus-Evers Bodil Ström Holst Patrice Humblot Gunnar Ronquist Anders Larsson 《Biochimica et Biophysica Acta (BBA)/General Subjects》2013