Recombinant Proteins
Product List
TINAGL1 Human
Tubulointerstitial Nephritis Antigen Like 1 Human Recombinant
TINAGL1 is fused to a 23 amino acid His-tag at N-terminus & purified by proprietary chromatographic techniques.
APOBEC4 Human
Apolipoprotein B MRNA Editing Enzyme, Catalytic Polypeptide-Like 4 Human Recombinant
MLLT11 Human
Myeloid/Lymphoid Leukemia Translocated To 11 Human Recombinant
MLLT11 is fused to a 23 amino acid His-tag at N-terminus & purified by proprietary chromatographic techniques.
APP Human
Amyloid beta (A4) Precursor Protein Human Recombinant
APP is fused to a 36 amino acid His-tag at N-terminus & purified by proprietary chromatographic techniques.
TINAGL1 Human, Sf9
Tubulointerstitial Nephritis Antigen Like 1 Human Recombinant, Sf9
TINAGL1 Human Recombinant produced in Sf9 Baculovirus cells is a single, glycosylated polypeptide chain containing 455 amino acids (22-467a.a.) and having a molecular mass of 51.2kDa (Molecular size on SDS-PAGE will appear at approximately 50-70kDa). TINAGL1 is expressed with a 6 amino acid His tag at C-Terminus and purified by proprietary chromatographic techniques.
Sf9, Baculovirus cells.
MNDA Human
Myeloid Cell Nuclear Differentiation Antigen Human Recombinant
APP Human, HEK
Amyloid beta (A4) Precursor Protein Human Recombinant, HEK
APP Human Recombinant is a single, glycosylated, polypeptide chain (18-701 a.a) containing a total of 690 amino acids, having a molecular mass of 78.2 kDa.
APP is fused to a 6 amino acid His-tag at C-terminus and is purified by proprietary chromatographic techniques.
TIPIN Human
TIMELESS Interacting Protein Human Recombinant
TIPIN is fused to a 23 amino acid His-tag at N-terminus & purified by proprietary chromatographic techniques.
MOAP1 Human
Modulator Of Apoptosis 1 Human Recombinant
APTX Human
Aprataxin Human Recombinant
The APTX is purified by proprietary chromatographic techniques.
Introduction
The term “Other” can be defined in various contexts. In a general sense, it refers to something or someone that is different or distinct from the one already mentioned or known . In biological taxonomy, classification involves organizing living organisms into hierarchical categories based on their characteristics and evolutionary history .
Biological properties of “Other” can be understood through key characteristics shared by living organisms, such as order, sensitivity or response to stimuli, reproduction, growth and development, regulation, homeostasis, and energy processing . These properties are expressed in various patterns and distributed across different tissues, contributing to the organism’s overall function and survival.
The primary biological functions of “Other” include catalyzing chemical reactions, synthesizing and repairing DNA, transporting materials across cells, receiving and sending chemical signals, responding to stimuli, and providing structural support . These functions play crucial roles in immune responses and pathogen recognition, ensuring the organism’s defense mechanisms are active and effective .
Modes of action describe the functional or anatomical changes resulting from exposure to a substance. This includes the interaction with other molecules and cells, binding partners, and downstream signaling cascades . For example, a mode of action could involve binding to DNA, leading to transcriptional regulation .
Regulatory mechanisms control the expression and activity of “Other” through transcriptional regulation and post-translational modifications . These mechanisms ensure that the biological processes are carried out efficiently and accurately, adapting to the organism’s needs and environmental changes.
In biomedical research, “Other” has various applications, including diagnostic tools and therapeutic strategies . For instance, understanding the biological properties and functions of different molecules can lead to the development of new treatments and diagnostic methods, improving healthcare outcomes.
