Recent patents on DNA & gene sequences最新文献

Lentiviral vectors are at the forefront of gene delivery systems for research and clinical applications. These vectors have the ability to efficiently transduce nondividing and dividing cells, to insert large genetic segment in the host chromatin, and to sustain stable long-term transgene expression. Most of lentiviral vectors systems in use are derived from HIV-1. Numerous modifications in the basic HIV structure have been made to ensure safety and to promote efficiency to vectors. Lentiviral vectors can be pseudotyped with distinct viral envelopes that influence vector tropism and transduction efficiency. Moreover, these vectors can be used to reprogram cells and generate induced pluripotent stem cells. This review aims to show the patents that resulted in improved safety and efficacy of lentiviral vector with important implications for clinical trials.

Gene delivery into cells to elicit cellular response has received a great attention recently. Viruses, lipids, peptides, cationic polymers and certain inorganic nanomaterials have been reported as gene delivery vectors. In this review, we focus on the recent literature on gene delivery using inorganic nanoparticles. This emerging field of study is concisely summarized and illustrated by selected examples and recent patents. New approaches and directions towards the practical use of multifunctional nanocarriers are highlighted.

Adhesins need to be exposed on the surface of pathogenic bacteria to properly interact with host tissues and allow establishment of the infection. This fact implies that, in theory, one could manage or avoid infection by controlling adhesins' function, and also by indirectly detecting bacteria through their surface-exposed adhesins. Besides, binding of anti-adhesin immunoglobulins on the bacterial surface tend to promote the opsonization of the pathogen. Therefore, bacterial adhesins represent a great target to develop new biopharmaceuticals, which may become commercially and medically important products. In this review, we will summarize the biological importance of bacterial adhesins, and also discuss some recent patents related to these molecules, as well as their use and possible new future developments in this area.

Small interfering RNAs (siRNAs) are rapidly emerging as new therapeutic tools for the treatment of some of the deadly diseases such as cancer. However, poor cellular uptake and instability in physiological milieu limit its therapeutic potential, hence there arises a need of a delivery system which can efficiently and repeatedly deliver siRNA to the target cells. Nanoparticles have shown immense potential as suitable delivery vectors with enhanced efficacy and biocompatibility. These delivery vectors are usually few nanometers in size, which not only protects siRNA against enzymatic degradation but also leads to tissue and cellular targeting. Nanoparticles prepared from various cationic polymers like polyethylenimine, and chitosan have been largely exploited as they bear several advantages such as, ease of manipulation, high stability, low cost and high payload. This review summarizes some of the recent patents on siRNA delivery employing polymer or lipid-based nano-vectors for therapeutic applications.

The analysis of patent activity is one methodology used for technological monitoring. In this paper, the activity of biotechnology-related patents in Brazil were analyzed through 30 International Patent Classification (IPC) codes published by the Organization for Economic Cooperation and Development (OECD). We developed a program to analyse the dynamics of the major patent applicants, countries and IPC codes extracted from the Brazilian Patent Office (INPI) database. We also identified Brazilian patent applicants who tried to expand protection abroad via the Patent Cooperation Treaty (PCT). We had access to all patents published online at the INPI from 1975 to July 2010, including 9,791 biotechnology patent applications in Brazil, and 163 PCTs published online at World Intellectual Property Organization (WIPO) from 1997 to December 2010. To our knowledge, there are no other online reports of biotechnology patents previous to the years analyzed here. Most of the biotechnology patents filed in the INPI (10.9%) concerned measuring or testing processes involving nucleic acids. The second and third places belonged to patents involving agro-technologies (recombinant DNA technology for plant cells and new flowering plants, i.e. angiosperms, or processes for obtaining them, and reproduction of flowering plants by tissue culture techniques). The majority of patents (87.2%) were filed by nonresidents, with USA being responsible for 51.7% of all biotechnology patents deposited in Brazil. Analyzing the resident applicants per region, we found a hub in the southeast region of Brazil. Among the resident applicants for biotechnology patents filed in the INPI, 43.5% were from São Paulo, 18.3% were from Rio de Janeiro, and 9.7% were from Minas Gerais. Pfizer, Novartis, and Sanofi were the largest applicants in Brazil, with 339, 288, and 245 biotechnology patents filed, respectively. For residents, the largest applicant was the governmental institution FIOCRUZ (Oswaldo Cruz Foundation), which filed 69 biotechnology patents within the period analyzed. The first biotechnology patent applications via PCT were submitted by Brazilians in 1997, with 3 from UFMG (university), 2 from individuals, and 1 from EMBRAPA (research institute).

Single nucleotide polymorphisms (SNPs) are single-base inheritable variations in a given and defined genetic location that occur in at least 1% of the population. SNPs are useful markers for genetic association studies in disease susceptibility or adverse drug reactions, in evolutionary studies and forensic science. Given the potential impact of SNPs, the biotechnology industry has focused on the development of high-throughput methods for SNP genotyping. Many highthroughput SNP genotyping technologies are currently available and many others are being patented recently. Each offers a unique combination of scale, accuracy, throughput and cost. In this review, we described some of the most important recent SNP genotyping methods and also recent patents associated with it.

The recent developments in biotechnology are the emerging science of "omics"- genomics, proteomics, transcriptomics and metabolomics. The state of the art sequencing technology has led to the deciphering of whole genome sequences of various microbes, plant, human and animals. The outcomes of genomics in the form of various genes, gene fragments, single nucleotide polymorphism, promoters and other regulatory sequences are a subject matter for patents based on its applications spanning agricultural, biomedical and industrial sectors. The patenting of genes and sequences is a debatable issue which has led to several controversies over recent years. With the accumulation of huge amount of sequences in various databases as a result of various genome sequencing projects worldwide, there is an immediate need for clarification of patenting genes and sequences. This review article gives an insight into patents based on development of genomics highlighting some of the patents based on deoxyribonucleic acid, genes, sequences and other related genetic material and gene technologies. Patents on single nucleotide polymorphism, stem cells, biomarkers for cancer diagnosis and treatment, microbial genes and plant genes are also discussed.

Gene synthesis is an emerging field which has widespread implications in synthetic biology and molecular biology. The field is constantly evolving which has led to key advances in oligonucleotide synthesis and gene synthesis technologies, with simplicity, cost effectiveness and high throughput. The miniaturization, multiplexing, microfluidic processing and the integrated microchip engineering will drive down cost and increase productivity without compromising DNA synthesis fidelity, whereas the gigantic amount of genome information provides infinite source of DNA elements and genes as raw material for synthetic biology. This article describes some of the recent patents on oligonucleotide synthesis and gene synthesis.

Adjuvant endocrine therapy as well as other forms of targeted therapy such as HER2 inhibitors and antiangiogenic agents reduce the risk of recurrence and improve survival among women with hormone receptor positive breast cancer. However, a significant percentage of women who receive targeted therapy as adjuvant or metastatic treatment do not benefit from this therapy, while a number of women who initially respond will eventually develop disease progression and relapse while on therapy. The observed variability in treatment response to targeted breast cancer treatment could be partly explained by pharmacogenomics. This paper reviews evidence on the role of pharmacogenomics of breast targeted therapy focusing on the clinical relevance of genetic variation. In particular, this article reviews the role of pharmacogenomics of tamoxifen, aromatase inhibitors, HER-2 inhibitors and anti-angiogenic agents. In addition, recent patents in the field are presented that provide promising steps in the field of personalized treatment of breast cancer, although future studies are needed for determining the clinical benefit of the proposed inventions. Finally, we present a testable hypothesis to aide the search for biologically meaningful genetic variation Specifically, we suggest the publication of negative results in the field of pharmacogenomics and pharmacoproteomics, will benefit future research in the field.