Anna Velica

The role of Chrna2⁺ Martinotti cells in the primary motor cortex: A study using retrograde rabies virus-based tracing and chemogenetics.

Velica, Anna

2026

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Increased layer 5 Martinotti cell excitation reduces pyramidal cell population plasticity and improves learned motor execution

Malfatti, Thawann; Velica, Anna; Winne, Jéssica; Ciralli, Barbara et al.

Ingår i eLIFE, 2026

• DOI för Increased layer 5 Martinotti cell excitation reduces pyramidal cell population plasticity and improves learned motor execution
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Layer-Specific Connectivity and Functional Interference of Chrna2+Layer 5 Martinotti Cells in the Primary Motor Cortex

Velica, Anna; Henriksson, Katharina; Malfatti, Thawann; Ciralli, Barbara et al.

Ingår i European Journal of Neuroscience, 2025

• DOI för Layer-Specific Connectivity and Functional Interference of Chrna2+Layer 5 Martinotti Cells in the Primary Motor Cortex
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A flowchart for adequate controls in virus-based monosynaptic tracing experiments identified Cre-independent leakage of the TVA receptor in RΦGT mice

Velica, Anna; Kullander, Klas

Ingår i BMC Neuroscience, 2024

• DOI för A flowchart for adequate controls in virus-based monosynaptic tracing experiments identified Cre-independent leakage of the TVA receptor in RΦGT mice
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Hop Mice Display Synchronous Hindlimb Locomotion and a Ventrally Fused Lumbar Spinal Cord Caused by a Point Mutation in Ttc26

Rabe Bernhardt, Nadine; Memic, Fatima; Velica, Anna; Tran, Michelle A. et al.

Ingår i eNeuro, 2022

• DOI för Hop Mice Display Synchronous Hindlimb Locomotion and a Ventrally Fused Lumbar Spinal Cord Caused by a Point Mutation in Ttc26
• Ladda ner fulltext (pdf) av Hop Mice Display Synchronous Hindlimb Locomotion and a Ventrally Fused Lumbar Spinal Cord Caused by a Point Mutation in Ttc26

Increased layer 5 Martinotti cell excitation reduces pyramidal cell population plasticity and improves learned motor execution

Malfatti, Thawann; Velica, Anna; Winne, Jéssica; Ciralli, Barbara et al.

Ingår i eLIFE, 2026

• DOI för Increased layer 5 Martinotti cell excitation reduces pyramidal cell population plasticity and improves learned motor execution
• Ladda ner fulltext (pdf) av Increased layer 5 Martinotti cell excitation reduces pyramidal cell population plasticity and improves learned motor execution

Layer-Specific Connectivity and Functional Interference of Chrna2+Layer 5 Martinotti Cells in the Primary Motor Cortex

Velica, Anna; Henriksson, Katharina; Malfatti, Thawann; Ciralli, Barbara et al.

Ingår i European Journal of Neuroscience, 2025

• DOI för Layer-Specific Connectivity and Functional Interference of Chrna2+Layer 5 Martinotti Cells in the Primary Motor Cortex
• Ladda ner fulltext (pdf) av Layer-Specific Connectivity and Functional Interference of Chrna2+Layer 5 Martinotti Cells in the Primary Motor Cortex

A flowchart for adequate controls in virus-based monosynaptic tracing experiments identified Cre-independent leakage of the TVA receptor in RΦGT mice

Velica, Anna; Kullander, Klas

Ingår i BMC Neuroscience, 2024

• DOI för A flowchart for adequate controls in virus-based monosynaptic tracing experiments identified Cre-independent leakage of the TVA receptor in RΦGT mice
• Ladda ner fulltext (pdf) av A flowchart for adequate controls in virus-based monosynaptic tracing experiments identified Cre-independent leakage of the TVA receptor in RΦGT mice

Hop Mice Display Synchronous Hindlimb Locomotion and a Ventrally Fused Lumbar Spinal Cord Caused by a Point Mutation in Ttc26

Rabe Bernhardt, Nadine; Memic, Fatima; Velica, Anna; Tran, Michelle A. et al.

Ingår i eNeuro, 2022

• DOI för Hop Mice Display Synchronous Hindlimb Locomotion and a Ventrally Fused Lumbar Spinal Cord Caused by a Point Mutation in Ttc26
• Ladda ner fulltext (pdf) av Hop Mice Display Synchronous Hindlimb Locomotion and a Ventrally Fused Lumbar Spinal Cord Caused by a Point Mutation in Ttc26

The role of Chrna2⁺ Martinotti cells in the primary motor cortex: A study using retrograde rabies virus-based tracing and chemogenetics.

Velica, Anna

2026

• Ladda ner fulltext (pdf) av The role of Chrna2⁺ Martinotti cells in the primary motor cortex: A study using retrograde rabies virus-based tracing and chemogenetics.