SQOPT is a software package for solving large-scale linear and quadratic programs. The quadratic objective function may be positive definite or semidefinite (convex). Efficiency is best if many constraints are active at a solution.
SNOPT is a software package for solving large-scale optimization problems (linear and nonlinear programs). It employs a sparse SQP algorithm with limited-memory quasi-Newton approximations to the Hessian of Lagrangian.
NPSOL is a software package for solving constrained optimization problems (nonlinear programs). It employs a dense SQP algorithm and is especially effective for nonlinear problems whose functions and gradients are expensive to evaluate.
LSSOL is a software package for solving constrained linear least-squares problems and convex quadratic programs (definite or semidefinite), including linear programs. Dense matrices are assumed throughout.
QPOPT is a software package for solving dense linear and quadratic programs. If the quadratic objective function is convex (definite or semidefinite), the solution obtained is a global optimum.
Eat1 and Eat2 are monoclonal antibodies (mAbs) which specifically recognize mouse CD81. It is shown that Eat1 binds to the large extracellular loop (EC2), while Eat2 requires the presence of both extracellular loops for binding.
12E7 antibody that can be used to diagnose and differentiation of peripheral ectodermal tumors (PNET) and Ewing's sarcomas, as well as in therapeutic applications and bone marrow transplantation.
Lab Designation: RB6 8C5; A rat-mouse hybridoma cell line producing a monoclonal IgG2b rat AB which recognizes most, if not all, granuloytes and granolucyte precursors in the mouse bone marrow.
Lab designation: RA3 6B2; A rat-mouse hybridoma cell line producing a monoclonal IgG2a rat AB which recognizes a B cell specific form of the T200 family of cell surface glycoproteins. B220 was first characterized by another MAB, RA3-3A1.
The 4G7 hybridoma secretes an IgG1 antibody that is specific for normal and malignant B lymphocytes and can be used for the study of B cell differentiation and for the characterization of lymphoid malignancies.
This antibody(MEL-14) is specific for a single class of lymphocyte surface molecules that appear to mediate recognition of lymph node high endothelial venules and that appear to be required for lymphocyte homing to lymph nodes in vivo.