Disclosed herein are engineered AAV VP capsid polypeptides with the ability to assemble into virus particles and having improved tissue tropism to, for example, CNS tissues. The capsids are engineered using the high throughput discovery system described herein. In certain embodiments, provided herein are recombinant adeno-associated virus (AAV) VP capsid polypeptides having at least one mutation in a residue corresponding to residue 581 to residue 589 in SEQ ID NO: 1.

Disclosed herein are engineered AAV VP capsid polypeptides with the ability to assemble into virus particles and having improved tissue tropism to, for example, CNS tissues. The capsids are engineered using the high throughput discovery system described herein. In certain embodiments, provided herein are recombinant adeno-associated virus (AAV) VP capsid polypeptides having at least one mutation in a residue corresponding to residue 581 to residue 589 in SEQ ID NO: 1.

The present disclosure methods for identifying binding partners using cell surface display libraries, where the cells of the library display engineered peptides on their cell surfaces for identification of peptides that bind to targets of interest. The engineered peptides are preferably expressed in the cells under conditions that provide both secretion and display of the engineered peptides on the cell surfaces, thus providing access of the engineered peptides to identify potential binding pairs. The cell libraries cab be engineered using an automated editing system that provides for one or more targeted edits per cell.

Among other things, motility of at least one individual microorganism or a change in motility of at least one individual microorganism or both is or are characterized. The characterized motility or change in motility is used to detect the presence or count of the at least one individual microorganism, or determine the identity of a species or strain of the at least one individual microorganism, or determine a susceptibility of the at least one individual microorganism to one or more antibiotics or other antimicrobials.

Among other things, motility of at least one individual microorganism or a change in motility of at least one individual microorganism or both is or are characterized. The characterized motility or change in motility is used to detect the presence or count of the at least one individual microorganism, or determine the identity of a species or strain of the at least one individual microorganism, or determine a susceptibility of the at least one individual microorganism to one or more antibiotics or other antimicrobials.

The present disclosure provides shuttle vectors for editing exogenous polynucleotides in heterologous live cells, as well as automated methods, modules, and multi-module cell editing instruments and systems for performing the editing methods.

The present disclosure provides shuttle vectors for editing exogenous polynucleotides in heterologous live cells, as well as automated methods, modules, and multi-module cell editing instruments and systems for performing the editing methods.

Disclosed are an IL-5 binding molecule, and a preparation method and use thereof. The binding molecule includes the following complementarity determining regions: an amino acid sequence of CDR1 selected from any one of sequences as set forth in SEQ ID NOs. 43-49; an amino acid sequence of CDR2 selected from any one of sequences as set forth in SEQ ID NOs. 50-56; and an amino acid sequence of CDR3 selected from any one of sequences as set forth in SEQ ID NOs. 57-62. The binding molecule is capable of specifically binding to IL-5, and effectively blocking the cell proliferation induced by IL-5.

A viral exposure signature (VES) that can identify early stage, pre-symptomatic hepatocellular carcinoma (HCC) among at-risk patients is described. The VES was developed using serological profiling and synthetic virome technology to identify unique viral peptide epitopes corresponding to 61 viral species. Methods of identifying a subject with early stage (pre-symptomatic) HCC using the VES are described.

A viral exposure signature (VES) that can identify early stage, pre-symptomatic hepatocellular carcinoma (HCC) among at-risk patients is described. The VES was developed using serological profiling and synthetic virome technology to identify unique viral peptide epitopes corresponding to 61 viral species. Methods of identifying a subject with early stage (pre-symptomatic) HCC using the VES are described.