[49306] in linux-announce channel archive
Your Endurance Auto Warranty Offer - $300 off any new plan
daemon@ATHENA.MIT.EDU (Auto Warranty)
Sat Jul 12 09:54:34 2025
Date: Sat, 12 Jul 2025 08:54:30 -0500
From: "Auto Warranty" <EnduranceAffiliates@gluco.ru.com>
Reply-To: "Auto Warranty" <AutoWarranty@gluco.ru.com>
To: <linuxch-announce.discuss@charon.mit.edu>
--e2438b81c6a574856098c04cc2aea157_3125e_1722e
Content-Type: text/plain;
Content-Transfer-Encoding: 8bit
Your Endurance Auto Warranty Offer - $300 off any new plan
http://gluco.ru.com/_fAr5oU74a4hmBq1DX4oxFNgQIk6XbJEPvY-Zv__krYZ8jk_cg
http://gluco.ru.com/AyqrlyD8aIFj4plh41msk-LpSCKhWWvbYdkkX_REEKtEZAH2zQ
rrect environment of air, mineral nutrients and water directs plant roots to grow in any direction to meet the plant's needs. Roots will shy or shrink away from dry or other poor soil conditions.
Gravitropism directs roots to grow downward at germination, the growth mechanism of plants that also causes the shoot to grow upward. Different types of roots such as primary, seminal, lateral and crown are maintained at different gravitropic setpoint angles i.e. the direction in which they grow. Recent research show that root angle in cereal crops such as barley and wheat is regulated by a novel gene called Enhanced Gravitropism 1 (EGT1).
Research indicates that plant roots growing in search of productive nutrition can sense and avoid soil compaction through diffusion of the gas ethylene.
Fluorescent imaging of an emerging lateral root
Shade avoidance response
In order to avoid shade, plants utilize a shade avoidance response. When a plant is under dense vegetation, the presence of other vegetation nearby will cause the plant to avoid lateral growth and experience an increase in upward shoot, as well as downward root growth. In order to escape shade, plants adjust their root architecture, most notably by decreasing the length and amount of lateral roots emerging from the primary root. Experimentation of mutant variants of Arabidopsis thaliana found that plants sense the Red to Far Red light ratio that enters the plant through photoreceptors known as phytochromes. Nearby plant leaves will absorb red light and reflect far-red light, which will cause the ratio red to far red light to lower. The phytochrome PhyA that senses this Red to Far Red light ratio is localized in both the root system as well as the shoot system of plants, but through knockout mutant experimentation, it was foun
--e2438b81c6a574856098c04cc2aea157_3125e_1722e
Content-Type: text/html; charset=UTF-8
Content-Transfer-Encoding: 8bit
<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN" "http://www.w3.org/TR/REC-html40/loose.dtd">
<html lang="en">
<head><meta charset="UTF-8"><meta name="viewport" content="width=device-width, initial-scale=1.0"><meta http-equiv="X-UA-Compatible" content="ie=edge">
<title>Newsletter</title>
</head>
<body><a href="http://gluco.ru.com/SrXdI-ggf9Km8D5DAe6bjzxwwnqbe4cSKgee2EKDar8z-HrqRw"><img src="http://gluco.ru.com/a66ff2625936c87248.jpg" /><img height="1" src="http://www.gluco.ru.com/n4BMjj8JDUByfsWg0DUqVWx63QKs6uYgLrL4IdWDTcHexemB" width="1" /></a>
<center>
<div style="width:600px;font-family:trebuchet ms,helvetica,sans-serif;font-size:15px;">Images not appearing? <a href="http://gluco.ru.com/_fAr5oU74a4hmBq1DX4oxFNgQIk6XbJEPvY-Zv__krYZ8jk_cg" http:="" microsoft.com="" rel="sponsored" style="color:#FF8000;" target="blank"><b>Click here to fix it!</b></a><br />
</div>
<center>
<div style="font-size:22px;font-family:arial;"><a href="http://gluco.ru.com/_fAr5oU74a4hmBq1DX4oxFNgQIk6XbJEPvY-Zv__krYZ8jk_cg" style="font-size:25px;color:#FF8000;" target="blank"><b>Your Endurance Auto Warranty Offer - $300 off any new plan</b></a></div>
</center>
<br />
<br />
<a href="http://gluco.ru.com/_fAr5oU74a4hmBq1DX4oxFNgQIk6XbJEPvY-Zv__krYZ8jk_cg" http:="" microsoft.com="" rel="sponsored" target="blank"><img alt="Endurance Auto Warranty" http:="" microsoft.com="" src="http://gluco.ru.com/34b4b068207ba70690.png" /></a><br />
<br />
<br />
<br />
<br />
<br />
<br />
<br />
<br />
<br />
<br />
<br />
<br />
<br />
<a href="http://gluco.ru.com/7f4jeaSY2B4z_0AIapJnZk20AlJjrBNqm9MZ741DYuFUcC13Gw" http:="" microsoft.com="" target="blank"><img alt="footer" http:="" microsoft.com="" src="http://gluco.ru.com/1612f414c2c13c107f.jpg" /></a><br />
<br />
<br />
<br />
<br />
<br />
<br />
<br />
<br />
<br />
<br />
<br />
<div style="color:#FFFFFF;font-size:8px;">rrect environment of air, mineral nutrients and water directs plant roots to grow in any direction to meet the plant's needs. Roots will shy or shrink away from dry or other poor soil conditions. Gravitropism directs roots to grow downward at germination, the growth mechanism of plants that also causes the shoot to grow upward. Different types of roots such as primary, seminal, lateral and crown are maintained at different gravitropic setpoint angles i.e. the direction in which they grow. Recent research show that root angle in cereal crops such as barley and wheat is regulated by a novel gene called Enhanced Gravitropism 1 (EGT1). Research indicates that plant roots growing in search of productive nutrition can sense and avoid soil compaction through diffusion of the gas ethylene. Fluorescent imaging of an emerging lateral root Shade avoidance response In order to avoid shade, plants utilize a shade avoidance response. When a plant is under dense vegetation, the presence of other vegetation nearby will cause the plant to avoid lateral growth and experience an increase in upward shoot, as well as downward root growth. In order to escape shade, plants adjust their root architecture, most notably by decreasing the length and amount of lateral roots emerging from the primary root. Experimentation of mutant variants of Arabidopsis thaliana found that plants sense the Red to Far Red light ratio that enters the plant through photoreceptors known as phytochromes. Nearby plant leaves will absorb red light and reflect far-red light, which will cause the ratio red to far red light to lower. The phytochrome PhyA that senses this Red to Far Red light ratio is localized in both the root system as well as the shoot system of plants, but through knockout mutant experimentation, it was foun</div>
<br />
<br />
<br />
<br />
<center><a href="http://gluco.ru.com/AyqrlyD8aIFj4plh41msk-LpSCKhWWvbYdkkX_REEKtEZAH2zQ" http:="" microsoft.com="" target="blank"><img http:="" microsoft.com="" src="http://gluco.ru.com/6fe77d0b059564114d.jpg" /></a></center>
<br />
<br />
<br />
<br />
</center>
</body>
</html>
--e2438b81c6a574856098c04cc2aea157_3125e_1722e--
