PT  - JOURNAL ARTICLE
AU  - Jia He
AU  - Michael Alonge
AU  - Srividya Ramakrishnan
AU  - Matthias Benoit
AU  - Sebastian Soyk
AU  - Nathan T. Reem
AU  - Anat Hendelman
AU  - Joyce Van Eck
AU  - Michael C. Schatz
AU  - Zachary B. Lippman
TI  - Establishing &lt;em&gt;Physalis&lt;/em&gt; as a new &lt;em&gt;Solanaceae&lt;/em&gt; model system enables genetic reevaluation of the inflated calyx syndrome
AID  - 10.1101/2022.07.29.502011
DP  - 2022 Jan 01
TA  - bioRxiv
PG  - 2022.07.29.502011
4099  - http://biorxiv.org/content/early/2022/07/30/2022.07.29.502011.short
4100  - http://biorxiv.org/content/early/2022/07/30/2022.07.29.502011.full
AB  - The highly diverse Solanaceae family contains several widely studied model and crop species. Fully exploring, appreciating, and exploiting this diversity requires additional model systems. Particularly promising are orphan fruit crops in the genus Physalis, which occupy a key evolutionary position in the Solanaceae and capture understudied variation in traits such as inflorescence complexity, fruit ripening and metabolites, disease and insect resistance, self-compatibility, and most notable, the striking Inflated Calyx Syndrome (ICS), an evolutionary novelty found across angiosperms where sepals grow exceptionally large to encapsulate fruits in a protective husk. We recently developed transformation and genome editing in Physalis grisea (groundcherry). However, to systematically explore and unlock the potential of this and related Physalis as genetic systems, high-quality genome assemblies are needed. Here, we present chromosome-scale references for P. grisea and its close relative P. pruinosa and use these resources to study natural and engineered variation in floral traits. We first rapidly identified a natural structural variant in a bHLH gene that causes petal color variation. Further, and against expectations, we found that CRISPR-Cas9 targeted mutagenesis of 11 MADS-box genes, including purported essential regulators of ICS, had no effect on inflation. In a forward genetics screen, we identified huskless, which lacks ICS due to mutation of an AP2-like gene that causes sepals and petals to merge into a single whorl of mixed identity. These resources and findings elevate Physalis to a new Solanaceae model system, and establish a new paradigm for the search of factors driving ICS.Competing Interest StatementThe authors have declared no competing interest.