Frame-shift mutation of InCO might cause early flowering of Japanese morning glory and might have contributed to northward expansion

bioRxiv - Plant Biology Pub Date : 2024-09-08 DOI:10.1101/2024.09.05.611556

Hiroaki Katsuyama, Takuro Ito, Kyousuke Ezura, Emdadul Haque, Atsushi Hoshino, Eiji Nitasaka, Michiyuki Ono, Shusei Sato, Sachiko Isobe, Hiroyuki Fukuoka, Nobuyoshi Watanabe, Tsutomu Kuboyama

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Abstract

Japanese morning glory (Ipomoea nil), a short day plant, has been used for studying flowering times. Here, quantitative trait loci (QTL) analysis for days from sowing to flowering (DTF) of F2 between I. nil var. Tokyo Kokei Standard (TKS) and I. hederacea line var. Q65, an early flowering variety, revealed four QTLs: QTL Ipomoea Flowering 1-4 (qIF1-4). The position of qIF3, which had the most significant effect among the four QTLs, corresponds with that of I. nil (or I. hederacea) CONSTANS (InCO/IhCO) in the linkage map. There is a single-base In/Del in the coding sequence of InCO/IhCO. The single-base deletion (SBD) causes a frame-shift mutation and loss of function in TKS allele (inco-1). I. nil accessions bearing inco-1 tend to flower early, similarly to rice varieties bearing the loss of function allele of CO ortholog, hd1. Consequently, inco-1 was inferred to reduce DTF. This inferred effect of inco-1 corresponds with the effect of the TKS allele of qIF3. Because inco-1 is found exclusively in Asian accessions, the SBD in inco-1 might have played an important role in the expansion of Japanese morning glories, originally native to the tropical regions of the Americas, into temperate Asia.

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InCO 的移帧突变可能会导致日本牵牛花提前开花，并可能有助于向北扩展

日本牵牛花（Ipomoea nil）是一种短日照植物，一直被用于研究开花时间。在此，对I.nil变种Tokyo Kokei Standard（TKS）和I.hederacea品系变种Q65（一个早花品种）之间的F2从播种到开花的天数（DTF）进行了数量性状位点（QTL）分析，发现了四个QTL：QTL Ipomoea Flowering 1-4（qIF1-4）。在四个 QTL 中，qIF3 的位置与 I. nil（或 I. hederacea）CONSTANS（InCO/IhCO）在连接图中的位置相对应，其影响最为显著。InCO/IhCO 的编码序列中有一个单碱基 In/Del。单碱基缺失（SBD）导致了 TKS 等位基因（inco-1）的移帧突变和功能缺失。携带 inco-1 的 I. nil 品种倾向于早开花，这与携带 CO 同源物 hd1 功能缺失等位基因的水稻品种类似。因此，推断 inco-1 会降低 DTF。inco-1 的这一推断效应与 qIF3 的 TKS 等位基因的效应一致。由于 inco-1 只存在于亚洲品种中，因此在原产于美洲热带地区的日本牵牛花向温带亚洲扩展的过程中，inco-1 中的 SBD 可能发挥了重要作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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bioRxiv - Plant Biology

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