Tubular connecting arrangement and method of sealingly connecting tubulars

What is claimed is: 1. A tubular connecting arrangement comprising: a first tubular having a first shoulder and first threads; a second tubular having a second shoulder and second threads, the second tubular having a minimum inner radial dimension and configured to accept a sensor probe having an outer radial dimension that fits within the minimum inner radial dimension of the second tubular; a seal sealingly engagable to both the first shoulder and the second shoulder; an insert being attachable to the second tubular and configured to provide radial support to the second tubular and having an inside dimension smaller than the outer radial dimension of the probe perpendicular to the length axis of the second tubular; and a sleeve threadably engagable with both the first threads and the second threads in response to being rotated in a same direction relative to both the first tubular and the second tubular such that the first shoulder and the second shoulder are moved toward one another to compress the seal therebetween wherein neither the first nor second tubular rotates independently of the other of the first or second tubular during the rotation of the sleeve, the arrangement being configured to maintain a selected minimum gap dimension for the seal between the first shoulder and the second shoulder. 2. The tubular connecting arrangement of claim 1 , wherein the first tubular includes a third shoulder configured to abut the insert to support axially compressive loads between the first tubular and the second tubular. 3. The tubular connecting arrangement of claim 2 , wherein threadable engagement between the insert and the second tubular is configured to bottom out such that the third shoulder is at a selected position relative to the second shoulder. 4. The tubular connecting arrangement of claim 1 , wherein a minimum inner radial dimension of the second tubular is greater than a minimum inner radial dimension of the insert. 5. The tubular connecting arrangement of claim 1 , wherein the insert has a noncircular inner surface receptive to a tool to allow torque to be applied to the insert by the tool. 6. The tubular connecting arrangement of claim 1 , wherein the insert includes a flange that is compressed between the first shoulder and the second shoulder when the seal is sealingly engaged with the first shoulder and the second shoulder. 7. The tubular connecting arrangement of claim 1 , further comprising a key engagable with both the first tubular and the second tubular such that the key prevents relative rotational motion between the first tubular and the second tubular. 8. The tubular connecting arrangement of claim 1 , further comprising a collar that is threadably engagable with threads on an inside of the first tubular. 9. The tubular connecting arrangement of claim 8 , wherein a minimum inner radial dimension of the first tubular is greater than a minimum inner radial dimension of the collar. 10. The tubular connecting arrangement of claim 9 , wherein the minimum inner radial dimension of the first tubular is substantially the same as the minimum inner radial dimension of the second tubular. 11. The tubular connecting arrangement of claim 1 , wherein the seal is made of metal. 12. The tubular connecting arrangement of claim 11 , wherein at least one of the seal, the first shoulder and the second shoulder are plated with a coating of gold, silver, copper or PTFE. 13. The tubular connecting arrangement of claim 11 , wherein at least one of the seal the first shoulder and the second have a surface roughness of less than Ra 1.6. 14. The tubular connecting arrangement of claim 1 , wherein the second tubular has third threads on an inside thereof of the second tubular and the insert is threadably engagable with the third threads. 15. The tubular connecting arrangement of claim 1 , wherein the insert is attached to the second tubular via welding, bonding, clamping, soldering or combinations of the foregoing. 16. The tubular connecting arrangement of claim 1 , wherein the arrangement is configured to maintain the seal in axial contact with the shoulders while the seal lacks radial contact with any structure. 17. A method of sealingly connecting tubulars comprising: rotating a sleeve threadably engaged with both a first tubular and a second tubular, the first tubular having a first shoulder and first threads and the second tubular having a second shoulder and second threads, the second tubular having a minimum inner radial dimension and configured to accept a sensor probe having an outer radial dimension that fits within the minimum inner radial dimension of the second tubular, the sleeve being rotated in a same direction relative to both the first tubular and the second tubular such that the first shoulder and the second shoulder are moved toward one another to compress a seal sealingly engagable to both the first shoulder and the second shoulder wherein neither the first nor second tubular rotates independently of the other of the first or second tubular during the rotation of the sleeve, the arrangement being configured to maintain a selected minimum gap dimension for the seal between the first shoulder and the second shoulder; attaching an insert within the second tubular, the insert configured to provide radial support to the second tubular and having an inside dimension smaller than the outer radial dimension of the probe perpendicular to the length axis of the second tubular; and; sealingly compressing the seal between the first shoulder on the first tubular and the second shoulder on the second tubular without relative rotation between the first tubular and the second tubular; and radially supporting the second tubular with the insert. 18. The method of sealingly connecting tubulars of claim 17 , further comprising bottoming out the threadable engagement between the insert and the second tubular. 19. The method of sealingly connecting tubulars of claim 17 , further comprising abutting a third shoulder on the first tubular against the insert. 20. The method of sealingly connecting tubulars of claim 19 , further comprising supporting axial compression between the first tubular and the second tubular with the abutting of the third shoulder against the insert. 21. The method of sealingly connecting tubulars of claim 17 , further comprising compressing a flange of the insert between the first shoulder and the second shoulder.