Disclosed herein are methods of forming compounds and exemplary compounds in the nature of a conjugated compound demonstrating enhanced stability, which in some embodiments comprises a protein and virus particle mixed in a conjugation reaction to form a conjugate mixture, such that the conditions and steps of forming these products allow for unrefrigerated storage for longer time periods than previous approaches, thus making feasible access to such products over a global supply chain.

Disclosed herein are methods of forming compounds and exemplary compounds in the nature of a conjugated compound demonstrating enhanced stability, which in some embodiments comprises a protein and virus particle mixed in a conjugation reaction to form a conjugate mixture, such that the conditions and steps of forming these products allow for unrefrigerated storage for longer time periods than previous approaches, thus making feasible access to such products over a global supply chain.

Disclosed herein are plant-based, molecular and diagnostic tools that can be used to block aphid transmission of poleroviruses, including stabilized proteins for expression in transgenic plants and/or in formulations for direct plant delivery. Further disclosed are proteins that can kill aphids and methods to produce these proteins. Antibodies and useful for diagnostic and therapeutic uses against poleroviruses.

An attenuated strain of cucumber green mottle mosaic virus (CGMMV) is useful to protect cucumber plants from infection with the wild-type infectious CGMMV strain. The genome of the attenuated virus contains at least one mutation or group of mutations selected from c.4969G>A, c.3334C>T, and a group of at least six of the mutations c.315G>A; c.1498A>G; c.1660C>T; c.3430C>T; c.3528A>G; c.4144C>T; c.4248C>T; and c.6228C>T. These mutated genomes encode one or more mutations selected from R163711 in the 186 kDa readthrough replication protein, A1092V in the 129 kDa replication protein and/or the 186 kDa readthrough replication protein, and at least six mutations selected from G86S, E480G, S534F, A1124V, N1157D, P1362L, P1397S in the 129 kDa replication protein and/or the 186 kDa readthrough replication protein, and the A156V mutation in the coat protein.

A Barley stripe mosaic virus-based gene editing vector system, comprising artificial plasmids separately containing Barley stripe mosaic virus RNAα, RNAβ, and RNAγ. The required sgRNA sequence is integrated in RNAβ or RNAγ. The Barley stripe mosaic virus-based gene editing vector system can perform efficient gene editing on genomes of dicotyledons such as Nicotiana benthamiana and monocotyledons such as wheat and maize. Using the gene editing vector system, users can directly obtain wheat seeds harboring targeted gene editing events simply by inoculating the Cas9-transgenic wheat, and the edited target gene is transmitted to progeny plants through the seeds, without the need for transformation, tissue culture and regeneration process

The present invention provides a new species of tobamovirus and its use to identify plants comprising resistance against the virus.

The present invention provides a new species of tobamovirus and its use to identify plants comprising resistance against the virus.

An attenuated strain of cucumber green mottle mosaic virus (CGMMV) is useful to protect cucumber plants from infection with the wild-type infectious CGMMV strain. The genome of the attenuated virus contains at least one mutation or group of mutations selected from c.4969G>A, c.3334C>T, and a group of at least six of the mutations c.315G>A; c.1498A>G; c.1660C>T; c.3430C>T; c.3528A>G; c.4144C>T; c.4248C>T; and c.6228C>T. These mutated genomes encode one or more mutations selected from R163711 in the 186 kDa readthrough replication protein, A1092V in the 129 kDa replication protein and/or the 186 kDa readthrough replication protein, and at least six mutations selected from G86S, E480G, S534F, A1124V, N1157D, P1362L, P1397S in the 129 kDa replication protein and/or the 186 kDa readthrough replication protein, and the A156V mutation in the coat protein.

The present invention provides a composition and a combined medication method for treating an enterovirus infection. In particular, the present invention provides a composition for inhibiting enteroviruses, wherein the composition at least contains an inhibitor of a 3D virus protein and an inhibitor of a capsid protein, or a combination of an inhibitor of a 3C protein and an inhibitor of a 3A protein.

An attenuated strain of cucumber green mottle mosaic virus (CGMMV) is useful to protect cucumber plants from infection with the wild-type infectious CGMMV strain. The genome of the attenuated virus contains at least one mutation or group of mutations selected from c.4969G>A, c.3334C>T, and a group of at least six of the mutations c.315G>A; c.1498A>G; c.1660C>T; c.3430C>T; c.3528A>G; c.4144C>T; c.4248C>T; and c.6228C>T. These mutated genomes encode one or more mutations selected from R1637H in the 186 kDa readthrough replication protein, A1092V in the 129 kDa replication protein and/or the 186 kDa readthrough replication protein, and at least six mutations selected from G86S, E480G, S534F, A1124V, N1157D, P1362L, P1397S in the 129 kDa replication protein and/or the 186 kDa readthrough replication protein, and the A156V mutation in the coat protein.